/* Capstone Disassembly Engine */ /* By Nguyen Anh Quynh , 2013-2015 */ #ifdef CAPSTONE_HAS_X86 #if defined(CAPSTONE_HAS_OSXKERNEL) #include #endif #include #ifndef CAPSTONE_HAS_OSXKERNEL #include #else #include "qsort.h" #endif #include "X86Mapping.h" #include "X86DisassemblerDecoder.h" #include "../../utils.h" const uint64_t arch_masks[9] = { 0, 0xff, 0xffff, 0, 0xffffffff, 0, 0, 0, 0xffffffffffffffffLL }; static const x86_reg sib_base_map[] = { X86_REG_INVALID, #define ENTRY(x) X86_REG_##x, ALL_SIB_BASES #undef ENTRY }; // Fill-ins to make the compiler happy. These constants are never actually // assigned; they are just filler to make an automatically-generated switch // statement work. enum { X86_REG_BX_SI = 500, X86_REG_BX_DI = 501, X86_REG_BP_SI = 502, X86_REG_BP_DI = 503, X86_REG_sib = 504, X86_REG_sib64 = 505 }; static const x86_reg sib_index_map[] = { X86_REG_INVALID, #define ENTRY(x) X86_REG_##x, ALL_EA_BASES REGS_XMM REGS_YMM REGS_ZMM #undef ENTRY }; static const x86_reg segment_map[] = { X86_REG_INVALID, X86_REG_CS, X86_REG_SS, X86_REG_DS, X86_REG_ES, X86_REG_FS, X86_REG_GS, }; x86_reg x86_map_sib_base(int r) { return sib_base_map[r]; } x86_reg x86_map_sib_index(int r) { return sib_index_map[r]; } x86_reg x86_map_segment(int r) { return segment_map[r]; } #ifndef CAPSTONE_DIET static const name_map reg_name_maps[] = { { X86_REG_INVALID, NULL }, { X86_REG_AH, "ah" }, { X86_REG_AL, "al" }, { X86_REG_AX, "ax" }, { X86_REG_BH, "bh" }, { X86_REG_BL, "bl" }, { X86_REG_BP, "bp" }, { X86_REG_BPL, "bpl" }, { X86_REG_BX, "bx" }, { X86_REG_CH, "ch" }, { X86_REG_CL, "cl" }, { X86_REG_CS, "cs" }, { X86_REG_CX, "cx" }, { X86_REG_DH, "dh" }, { X86_REG_DI, "di" }, { X86_REG_DIL, "dil" }, { X86_REG_DL, "dl" }, { X86_REG_DS, "ds" }, { X86_REG_DX, "dx" }, { X86_REG_EAX, "eax" }, { X86_REG_EBP, "ebp" }, { X86_REG_EBX, "ebx" }, { X86_REG_ECX, "ecx" }, { X86_REG_EDI, "edi" }, { X86_REG_EDX, "edx" }, { X86_REG_EFLAGS, "flags" }, { X86_REG_EIP, "eip" }, { X86_REG_EIZ, "eiz" }, { X86_REG_ES, "es" }, { X86_REG_ESI, "esi" }, { X86_REG_ESP, "esp" }, { X86_REG_FPSW, "fpsw" }, { X86_REG_FS, "fs" }, { X86_REG_GS, "gs" }, { X86_REG_IP, "ip" }, { X86_REG_RAX, "rax" }, { X86_REG_RBP, "rbp" }, { X86_REG_RBX, "rbx" }, { X86_REG_RCX, "rcx" }, { X86_REG_RDI, "rdi" }, { X86_REG_RDX, "rdx" }, { X86_REG_RIP, "rip" }, { X86_REG_RIZ, "riz" }, { X86_REG_RSI, "rsi" }, { X86_REG_RSP, "rsp" }, { X86_REG_SI, "si" }, { X86_REG_SIL, "sil" }, { X86_REG_SP, "sp" }, { X86_REG_SPL, "spl" }, { X86_REG_SS, "ss" }, { X86_REG_CR0, "cr0" }, { X86_REG_CR1, "cr1" }, { X86_REG_CR2, "cr2" }, { X86_REG_CR3, "cr3" }, { X86_REG_CR4, "cr4" }, { X86_REG_CR5, "cr5" }, { X86_REG_CR6, "cr6" }, { X86_REG_CR7, "cr7" }, { X86_REG_CR8, "cr8" }, { X86_REG_CR9, "cr9" }, { X86_REG_CR10, "cr10" }, { X86_REG_CR11, "cr11" }, { X86_REG_CR12, "cr12" }, { X86_REG_CR13, "cr13" }, { X86_REG_CR14, "cr14" }, { X86_REG_CR15, "cr15" }, { X86_REG_DR0, "dr0" }, { X86_REG_DR1, "dr1" }, { X86_REG_DR2, "dr2" }, { X86_REG_DR3, "dr3" }, { X86_REG_DR4, "dr4" }, { X86_REG_DR5, "dr5" }, { X86_REG_DR6, "dr6" }, { X86_REG_DR7, "dr7" }, { X86_REG_DR8, "dr8" }, { X86_REG_DR9, "dr9" }, { X86_REG_DR10, "dr10" }, { X86_REG_DR11, "dr11" }, { X86_REG_DR12, "dr12" }, { X86_REG_DR13, "dr13" }, { X86_REG_DR14, "dr14" }, { X86_REG_DR15, "dr15" }, { X86_REG_FP0, "fp0" }, { X86_REG_FP1, "fp1" }, { X86_REG_FP2, "fp2" }, { X86_REG_FP3, "fp3" }, { X86_REG_FP4, "fp4" }, { X86_REG_FP5, "fp5" }, { X86_REG_FP6, "fp6" }, { X86_REG_FP7, "fp7" }, { X86_REG_K0, "k0" }, { X86_REG_K1, "k1" }, { X86_REG_K2, "k2" }, { X86_REG_K3, "k3" }, { X86_REG_K4, "k4" }, { X86_REG_K5, "k5" }, { X86_REG_K6, "k6" }, { X86_REG_K7, "k7" }, { X86_REG_MM0, "mm0" }, { X86_REG_MM1, "mm1" }, { X86_REG_MM2, "mm2" }, { X86_REG_MM3, "mm3" }, { X86_REG_MM4, "mm4" }, { X86_REG_MM5, "mm5" }, { X86_REG_MM6, "mm6" }, { X86_REG_MM7, "mm7" }, { X86_REG_R8, "r8" }, { X86_REG_R9, "r9" }, { X86_REG_R10, "r10" }, { X86_REG_R11, "r11" }, { X86_REG_R12, "r12" }, { X86_REG_R13, "r13" }, { X86_REG_R14, "r14" }, { X86_REG_R15, "r15" }, { X86_REG_ST0, "st(0)" }, { X86_REG_ST1, "st(1)" }, { X86_REG_ST2, "st(2)" }, { X86_REG_ST3, "st(3)" }, { X86_REG_ST4, "st(4)" }, { X86_REG_ST5, "st(5)" }, { X86_REG_ST6, "st(6)" }, { X86_REG_ST7, "st(7)" }, { X86_REG_XMM0, "xmm0" }, { X86_REG_XMM1, "xmm1" }, { X86_REG_XMM2, "xmm2" }, { X86_REG_XMM3, "xmm3" }, { X86_REG_XMM4, "xmm4" }, { X86_REG_XMM5, "xmm5" }, { X86_REG_XMM6, "xmm6" }, { X86_REG_XMM7, "xmm7" }, { X86_REG_XMM8, "xmm8" }, { X86_REG_XMM9, "xmm9" }, { X86_REG_XMM10, "xmm10" }, { X86_REG_XMM11, "xmm11" }, { X86_REG_XMM12, "xmm12" }, { X86_REG_XMM13, "xmm13" }, { X86_REG_XMM14, "xmm14" }, { X86_REG_XMM15, "xmm15" }, { X86_REG_XMM16, "xmm16" }, { X86_REG_XMM17, "xmm17" }, { X86_REG_XMM18, "xmm18" }, { X86_REG_XMM19, "xmm19" }, { X86_REG_XMM20, "xmm20" }, { X86_REG_XMM21, "xmm21" }, { X86_REG_XMM22, "xmm22" }, { X86_REG_XMM23, "xmm23" }, { X86_REG_XMM24, "xmm24" }, { X86_REG_XMM25, "xmm25" }, { X86_REG_XMM26, "xmm26" }, { X86_REG_XMM27, "xmm27" }, { X86_REG_XMM28, "xmm28" }, { X86_REG_XMM29, "xmm29" }, { X86_REG_XMM30, "xmm30" }, { X86_REG_XMM31, "xmm31" }, { X86_REG_YMM0, "ymm0" }, { X86_REG_YMM1, "ymm1" }, { X86_REG_YMM2, "ymm2" }, { X86_REG_YMM3, "ymm3" }, { X86_REG_YMM4, "ymm4" }, { X86_REG_YMM5, "ymm5" }, { X86_REG_YMM6, "ymm6" }, { X86_REG_YMM7, "ymm7" }, { X86_REG_YMM8, "ymm8" }, { X86_REG_YMM9, "ymm9" }, { X86_REG_YMM10, "ymm10" }, { X86_REG_YMM11, "ymm11" }, { X86_REG_YMM12, "ymm12" }, { X86_REG_YMM13, "ymm13" }, { X86_REG_YMM14, "ymm14" }, { X86_REG_YMM15, "ymm15" }, { X86_REG_YMM16, "ymm16" }, { X86_REG_YMM17, "ymm17" }, { X86_REG_YMM18, "ymm18" }, { X86_REG_YMM19, "ymm19" }, { X86_REG_YMM20, "ymm20" }, { X86_REG_YMM21, "ymm21" }, { X86_REG_YMM22, "ymm22" }, { X86_REG_YMM23, "ymm23" }, { X86_REG_YMM24, "ymm24" }, { X86_REG_YMM25, "ymm25" }, { X86_REG_YMM26, "ymm26" }, { X86_REG_YMM27, "ymm27" }, { X86_REG_YMM28, "ymm28" }, { X86_REG_YMM29, "ymm29" }, { X86_REG_YMM30, "ymm30" }, { X86_REG_YMM31, "ymm31" }, { X86_REG_ZMM0, "zmm0" }, { X86_REG_ZMM1, "zmm1" }, { X86_REG_ZMM2, "zmm2" }, { X86_REG_ZMM3, "zmm3" }, { X86_REG_ZMM4, "zmm4" }, { X86_REG_ZMM5, "zmm5" }, { X86_REG_ZMM6, "zmm6" }, { X86_REG_ZMM7, "zmm7" }, { X86_REG_ZMM8, "zmm8" }, { X86_REG_ZMM9, "zmm9" }, { X86_REG_ZMM10, "zmm10" }, { X86_REG_ZMM11, "zmm11" }, { X86_REG_ZMM12, "zmm12" }, { X86_REG_ZMM13, "zmm13" }, { X86_REG_ZMM14, "zmm14" }, { X86_REG_ZMM15, "zmm15" }, { X86_REG_ZMM16, "zmm16" }, { X86_REG_ZMM17, "zmm17" }, { X86_REG_ZMM18, "zmm18" }, { X86_REG_ZMM19, "zmm19" }, { X86_REG_ZMM20, "zmm20" }, { X86_REG_ZMM21, "zmm21" }, { X86_REG_ZMM22, "zmm22" }, { X86_REG_ZMM23, "zmm23" }, { X86_REG_ZMM24, "zmm24" }, { X86_REG_ZMM25, "zmm25" }, { X86_REG_ZMM26, "zmm26" }, { X86_REG_ZMM27, "zmm27" }, { X86_REG_ZMM28, "zmm28" }, { X86_REG_ZMM29, "zmm29" }, { X86_REG_ZMM30, "zmm30" }, { X86_REG_ZMM31, "zmm31" }, { X86_REG_R8B, "r8b" }, { X86_REG_R9B, "r9b" }, { X86_REG_R10B, "r10b" }, { X86_REG_R11B, "r11b" }, { X86_REG_R12B, "r12b" }, { X86_REG_R13B, "r13b" }, { X86_REG_R14B, "r14b" }, { X86_REG_R15B, "r15b" }, { X86_REG_R8D, "r8d" }, { X86_REG_R9D, "r9d" }, { X86_REG_R10D, "r10d" }, { X86_REG_R11D, "r11d" }, { X86_REG_R12D, "r12d" }, { X86_REG_R13D, "r13d" }, { X86_REG_R14D, "r14d" }, { X86_REG_R15D, "r15d" }, { X86_REG_R8W, "r8w" }, { X86_REG_R9W, "r9w" }, { X86_REG_R10W, "r10w" }, { X86_REG_R11W, "r11w" }, { X86_REG_R12W, "r12w" }, { X86_REG_R13W, "r13w" }, { X86_REG_R14W, "r14w" }, { X86_REG_R15W, "r15w" }, }; #endif // register size in non-64bit mode const uint8_t regsize_map_32 [] = { 0, // { X86_REG_INVALID, NULL }, 1, // { X86_REG_AH, "ah" }, 1, // { X86_REG_AL, "al" }, 2, // { X86_REG_AX, "ax" }, 1, // { X86_REG_BH, "bh" }, 1, // { X86_REG_BL, "bl" }, 2, // { X86_REG_BP, "bp" }, 1, // { X86_REG_BPL, "bpl" }, 2, // { X86_REG_BX, "bx" }, 1, // { X86_REG_CH, "ch" }, 1, // { X86_REG_CL, "cl" }, 2, // { X86_REG_CS, "cs" }, 2, // { X86_REG_CX, "cx" }, 1, // { X86_REG_DH, "dh" }, 2, // { X86_REG_DI, "di" }, 1, // { X86_REG_DIL, "dil" }, 1, // { X86_REG_DL, "dl" }, 2, // { X86_REG_DS, "ds" }, 2, // { X86_REG_DX, "dx" }, 4, // { X86_REG_EAX, "eax" }, 4, // { X86_REG_EBP, "ebp" }, 4, // { X86_REG_EBX, "ebx" }, 4, // { X86_REG_ECX, "ecx" }, 4, // { X86_REG_EDI, "edi" }, 4, // { X86_REG_EDX, "edx" }, 4, // { X86_REG_EFLAGS, "flags" }, 4, // { X86_REG_EIP, "eip" }, 4, // { X86_REG_EIZ, "eiz" }, 2, // { X86_REG_ES, "es" }, 4, // { X86_REG_ESI, "esi" }, 4, // { X86_REG_ESP, "esp" }, 10, // { X86_REG_FPSW, "fpsw" }, 2, // { X86_REG_FS, "fs" }, 2, // { X86_REG_GS, "gs" }, 2, // { X86_REG_IP, "ip" }, 8, // { X86_REG_RAX, "rax" }, 8, // { X86_REG_RBP, "rbp" }, 8, // { X86_REG_RBX, "rbx" }, 8, // { X86_REG_RCX, "rcx" }, 8, // { X86_REG_RDI, "rdi" }, 8, // { X86_REG_RDX, "rdx" }, 8, // { X86_REG_RIP, "rip" }, 8, // { X86_REG_RIZ, "riz" }, 8, // { X86_REG_RSI, "rsi" }, 8, // { X86_REG_RSP, "rsp" }, 2, // { X86_REG_SI, "si" }, 1, // { X86_REG_SIL, "sil" }, 2, // { X86_REG_SP, "sp" }, 1, // { X86_REG_SPL, "spl" }, 2, // { X86_REG_SS, "ss" }, 4, // { X86_REG_CR0, "cr0" }, 4, // { X86_REG_CR1, "cr1" }, 4, // { X86_REG_CR2, "cr2" }, 4, // { X86_REG_CR3, "cr3" }, 4, // { X86_REG_CR4, "cr4" }, 8, // { X86_REG_CR5, "cr5" }, 8, // { X86_REG_CR6, "cr6" }, 8, // { X86_REG_CR7, "cr7" }, 8, // { X86_REG_CR8, "cr8" }, 8, // { X86_REG_CR9, "cr9" }, 8, // { X86_REG_CR10, "cr10" }, 8, // { X86_REG_CR11, "cr11" }, 8, // { X86_REG_CR12, "cr12" }, 8, // { X86_REG_CR13, "cr13" }, 8, // { X86_REG_CR14, "cr14" }, 8, // { X86_REG_CR15, "cr15" }, 4, // { X86_REG_DR0, "dr0" }, 4, // { X86_REG_DR1, "dr1" }, 4, // { X86_REG_DR2, "dr2" }, 4, // { X86_REG_DR3, "dr3" }, 4, // { X86_REG_DR4, "dr4" }, 4, // { X86_REG_DR5, "dr5" }, 4, // { X86_REG_DR6, "dr6" }, 4, // { X86_REG_DR7, "dr7" }, 4, // { X86_REG_DR8, "dr8" }, 4, // { X86_REG_DR9, "dr9" }, 4, // { X86_REG_DR10, "dr10" }, 4, // { X86_REG_DR11, "dr11" }, 4, // { X86_REG_DR12, "dr12" }, 4, // { X86_REG_DR13, "dr13" }, 4, // { X86_REG_DR14, "dr14" }, 4, // { X86_REG_DR15, "dr15" }, 10, // { X86_REG_FP0, "fp0" }, 10, // { X86_REG_FP1, "fp1" }, 10, // { X86_REG_FP2, "fp2" }, 10, // { X86_REG_FP3, "fp3" }, 10, // { X86_REG_FP4, "fp4" }, 10, // { X86_REG_FP5, "fp5" }, 10, // { X86_REG_FP6, "fp6" }, 10, // { X86_REG_FP7, "fp7" }, 2, // { X86_REG_K0, "k0" }, 2, // { X86_REG_K1, "k1" }, 2, // { X86_REG_K2, "k2" }, 2, // { X86_REG_K3, "k3" }, 2, // { X86_REG_K4, "k4" }, 2, // { X86_REG_K5, "k5" }, 2, // { X86_REG_K6, "k6" }, 2, // { X86_REG_K7, "k7" }, 8, // { X86_REG_MM0, "mm0" }, 8, // { X86_REG_MM1, "mm1" }, 8, // { X86_REG_MM2, "mm2" }, 8, // { X86_REG_MM3, "mm3" }, 8, // { X86_REG_MM4, "mm4" }, 8, // { X86_REG_MM5, "mm5" }, 8, // { X86_REG_MM6, "mm6" }, 8, // { X86_REG_MM7, "mm7" }, 8, // { X86_REG_R8, "r8" }, 8, // { X86_REG_R9, "r9" }, 8, // { X86_REG_R10, "r10" }, 8, // { X86_REG_R11, "r11" }, 8, // { X86_REG_R12, "r12" }, 8, // { X86_REG_R13, "r13" }, 8, // { X86_REG_R14, "r14" }, 8, // { X86_REG_R15, "r15" }, 10, // { X86_REG_ST0, "st0" }, 10, // { X86_REG_ST1, "st1" }, 10, // { X86_REG_ST2, "st2" }, 10, // { X86_REG_ST3, "st3" }, 10, // { X86_REG_ST4, "st4" }, 10, // { X86_REG_ST5, "st5" }, 10, // { X86_REG_ST6, "st6" }, 10, // { X86_REG_ST7, "st7" }, 16, // { X86_REG_XMM0, "xmm0" }, 16, // { X86_REG_XMM1, "xmm1" }, 16, // { X86_REG_XMM2, "xmm2" }, 16, // { X86_REG_XMM3, "xmm3" }, 16, // { X86_REG_XMM4, "xmm4" }, 16, // { X86_REG_XMM5, "xmm5" }, 16, // { X86_REG_XMM6, "xmm6" }, 16, // { X86_REG_XMM7, "xmm7" }, 16, // { X86_REG_XMM8, "xmm8" }, 16, // { X86_REG_XMM9, "xmm9" }, 16, // { X86_REG_XMM10, "xmm10" }, 16, // { X86_REG_XMM11, "xmm11" }, 16, // { X86_REG_XMM12, "xmm12" }, 16, // { X86_REG_XMM13, "xmm13" }, 16, // { X86_REG_XMM14, "xmm14" }, 16, // { X86_REG_XMM15, "xmm15" }, 16, // { X86_REG_XMM16, "xmm16" }, 16, // { X86_REG_XMM17, "xmm17" }, 16, // { X86_REG_XMM18, "xmm18" }, 16, // { X86_REG_XMM19, "xmm19" }, 16, // { X86_REG_XMM20, "xmm20" }, 16, // { X86_REG_XMM21, "xmm21" }, 16, // { X86_REG_XMM22, "xmm22" }, 16, // { X86_REG_XMM23, "xmm23" }, 16, // { X86_REG_XMM24, "xmm24" }, 16, // { X86_REG_XMM25, "xmm25" }, 16, // { X86_REG_XMM26, "xmm26" }, 16, // { X86_REG_XMM27, "xmm27" }, 16, // { X86_REG_XMM28, "xmm28" }, 16, // { X86_REG_XMM29, "xmm29" }, 16, // { X86_REG_XMM30, "xmm30" }, 16, // { X86_REG_XMM31, "xmm31" }, 32, // { X86_REG_YMM0, "ymm0" }, 32, // { X86_REG_YMM1, "ymm1" }, 32, // { X86_REG_YMM2, "ymm2" }, 32, // { X86_REG_YMM3, "ymm3" }, 32, // { X86_REG_YMM4, "ymm4" }, 32, // { X86_REG_YMM5, "ymm5" }, 32, // { X86_REG_YMM6, "ymm6" }, 32, // { X86_REG_YMM7, "ymm7" }, 32, // { X86_REG_YMM8, "ymm8" }, 32, // { X86_REG_YMM9, "ymm9" }, 32, // { X86_REG_YMM10, "ymm10" }, 32, // { X86_REG_YMM11, "ymm11" }, 32, // { X86_REG_YMM12, "ymm12" }, 32, // { X86_REG_YMM13, "ymm13" }, 32, // { X86_REG_YMM14, "ymm14" }, 32, // { X86_REG_YMM15, "ymm15" }, 32, // { X86_REG_YMM16, "ymm16" }, 32, // { X86_REG_YMM17, "ymm17" }, 32, // { X86_REG_YMM18, "ymm18" }, 32, // { X86_REG_YMM19, "ymm19" }, 32, // { X86_REG_YMM20, "ymm20" }, 32, // { X86_REG_YMM21, "ymm21" }, 32, // { X86_REG_YMM22, "ymm22" }, 32, // { X86_REG_YMM23, "ymm23" }, 32, // { X86_REG_YMM24, "ymm24" }, 32, // { X86_REG_YMM25, "ymm25" }, 32, // { X86_REG_YMM26, "ymm26" }, 32, // { X86_REG_YMM27, "ymm27" }, 32, // { X86_REG_YMM28, "ymm28" }, 32, // { X86_REG_YMM29, "ymm29" }, 32, // { X86_REG_YMM30, "ymm30" }, 32, // { X86_REG_YMM31, "ymm31" }, 64, // { X86_REG_ZMM0, "zmm0" }, 64, // { X86_REG_ZMM1, "zmm1" }, 64, // { X86_REG_ZMM2, "zmm2" }, 64, // { X86_REG_ZMM3, "zmm3" }, 64, // { X86_REG_ZMM4, "zmm4" }, 64, // { X86_REG_ZMM5, "zmm5" }, 64, // { X86_REG_ZMM6, "zmm6" }, 64, // { X86_REG_ZMM7, "zmm7" }, 64, // { X86_REG_ZMM8, "zmm8" }, 64, // { X86_REG_ZMM9, "zmm9" }, 64, // { X86_REG_ZMM10, "zmm10" }, 64, // { X86_REG_ZMM11, "zmm11" }, 64, // { X86_REG_ZMM12, "zmm12" }, 64, // { X86_REG_ZMM13, "zmm13" }, 64, // { X86_REG_ZMM14, "zmm14" }, 64, // { X86_REG_ZMM15, "zmm15" }, 64, // { X86_REG_ZMM16, "zmm16" }, 64, // { X86_REG_ZMM17, "zmm17" }, 64, // { X86_REG_ZMM18, "zmm18" }, 64, // { X86_REG_ZMM19, "zmm19" }, 64, // { X86_REG_ZMM20, "zmm20" }, 64, // { X86_REG_ZMM21, "zmm21" }, 64, // { X86_REG_ZMM22, "zmm22" }, 64, // { X86_REG_ZMM23, "zmm23" }, 64, // { X86_REG_ZMM24, "zmm24" }, 64, // { X86_REG_ZMM25, "zmm25" }, 64, // { X86_REG_ZMM26, "zmm26" }, 64, // { X86_REG_ZMM27, "zmm27" }, 64, // { X86_REG_ZMM28, "zmm28" }, 64, // { X86_REG_ZMM29, "zmm29" }, 64, // { X86_REG_ZMM30, "zmm30" }, 64, // { X86_REG_ZMM31, "zmm31" }, 1, // { X86_REG_R8B, "r8b" }, 1, // { X86_REG_R9B, "r9b" }, 1, // { X86_REG_R10B, "r10b" }, 1, // { X86_REG_R11B, "r11b" }, 1, // { X86_REG_R12B, "r12b" }, 1, // { X86_REG_R13B, "r13b" }, 1, // { X86_REG_R14B, "r14b" }, 1, // { X86_REG_R15B, "r15b" }, 4, // { X86_REG_R8D, "r8d" }, 4, // { X86_REG_R9D, "r9d" }, 4, // { X86_REG_R10D, "r10d" }, 4, // { X86_REG_R11D, "r11d" }, 4, // { X86_REG_R12D, "r12d" }, 4, // { X86_REG_R13D, "r13d" }, 4, // { X86_REG_R14D, "r14d" }, 4, // { X86_REG_R15D, "r15d" }, 2, // { X86_REG_R8W, "r8w" }, 2, // { X86_REG_R9W, "r9w" }, 2, // { X86_REG_R10W, "r10w" }, 2, // { X86_REG_R11W, "r11w" }, 2, // { X86_REG_R12W, "r12w" }, 2, // { X86_REG_R13W, "r13w" }, 2, // { X86_REG_R14W, "r14w" }, 2, // { X86_REG_R15W, "r15w" }, }; // register size in 64bit mode const uint8_t regsize_map_64 [] = { 0, // { X86_REG_INVALID, NULL }, 1, // { X86_REG_AH, "ah" }, 1, // { X86_REG_AL, "al" }, 2, // { X86_REG_AX, "ax" }, 1, // { X86_REG_BH, "bh" }, 1, // { X86_REG_BL, "bl" }, 2, // { X86_REG_BP, "bp" }, 1, // { X86_REG_BPL, "bpl" }, 2, // { X86_REG_BX, "bx" }, 1, // { X86_REG_CH, "ch" }, 1, // { X86_REG_CL, "cl" }, 2, // { X86_REG_CS, "cs" }, 2, // { X86_REG_CX, "cx" }, 1, // { X86_REG_DH, "dh" }, 2, // { X86_REG_DI, "di" }, 1, // { X86_REG_DIL, "dil" }, 1, // { X86_REG_DL, "dl" }, 2, // { X86_REG_DS, "ds" }, 2, // { X86_REG_DX, "dx" }, 4, // { X86_REG_EAX, "eax" }, 4, // { X86_REG_EBP, "ebp" }, 4, // { X86_REG_EBX, "ebx" }, 4, // { X86_REG_ECX, "ecx" }, 4, // { X86_REG_EDI, "edi" }, 4, // { X86_REG_EDX, "edx" }, 8, // { X86_REG_EFLAGS, "flags" }, 4, // { X86_REG_EIP, "eip" }, 4, // { X86_REG_EIZ, "eiz" }, 2, // { X86_REG_ES, "es" }, 4, // { X86_REG_ESI, "esi" }, 4, // { X86_REG_ESP, "esp" }, 10, // { X86_REG_FPSW, "fpsw" }, 2, // { X86_REG_FS, "fs" }, 2, // { X86_REG_GS, "gs" }, 2, // { X86_REG_IP, "ip" }, 8, // { X86_REG_RAX, "rax" }, 8, // { X86_REG_RBP, "rbp" }, 8, // { X86_REG_RBX, "rbx" }, 8, // { X86_REG_RCX, "rcx" }, 8, // { X86_REG_RDI, "rdi" }, 8, // { X86_REG_RDX, "rdx" }, 8, // { X86_REG_RIP, "rip" }, 8, // { X86_REG_RIZ, "riz" }, 8, // { X86_REG_RSI, "rsi" }, 8, // { X86_REG_RSP, "rsp" }, 2, // { X86_REG_SI, "si" }, 1, // { X86_REG_SIL, "sil" }, 2, // { X86_REG_SP, "sp" }, 1, // { X86_REG_SPL, "spl" }, 2, // { X86_REG_SS, "ss" }, 8, // { X86_REG_CR0, "cr0" }, 8, // { X86_REG_CR1, "cr1" }, 8, // { X86_REG_CR2, "cr2" }, 8, // { X86_REG_CR3, "cr3" }, 8, // { X86_REG_CR4, "cr4" }, 8, // { X86_REG_CR5, "cr5" }, 8, // { X86_REG_CR6, "cr6" }, 8, // { X86_REG_CR7, "cr7" }, 8, // { X86_REG_CR8, "cr8" }, 8, // { X86_REG_CR9, "cr9" }, 8, // { X86_REG_CR10, "cr10" }, 8, // { X86_REG_CR11, "cr11" }, 8, // { X86_REG_CR12, "cr12" }, 8, // { X86_REG_CR13, "cr13" }, 8, // { X86_REG_CR14, "cr14" }, 8, // { X86_REG_CR15, "cr15" }, 8, // { X86_REG_DR0, "dr0" }, 8, // { X86_REG_DR1, "dr1" }, 8, // { X86_REG_DR2, "dr2" }, 8, // { X86_REG_DR3, "dr3" }, 8, // { X86_REG_DR4, "dr4" }, 8, // { X86_REG_DR5, "dr5" }, 8, // { X86_REG_DR6, "dr6" }, 8, // { X86_REG_DR7, "dr7" }, 8, // { X86_REG_DR8, "dr8" }, 8, // { X86_REG_DR9, "dr9" }, 8, // { X86_REG_DR10, "dr10" }, 8, // { X86_REG_DR11, "dr11" }, 8, // { X86_REG_DR12, "dr12" }, 8, // { X86_REG_DR13, "dr13" }, 8, // { X86_REG_DR14, "dr14" }, 8, // { X86_REG_DR15, "dr15" }, 10, // { X86_REG_FP0, "fp0" }, 10, // { X86_REG_FP1, "fp1" }, 10, // { X86_REG_FP2, "fp2" }, 10, // { X86_REG_FP3, "fp3" }, 10, // { X86_REG_FP4, "fp4" }, 10, // { X86_REG_FP5, "fp5" }, 10, // { X86_REG_FP6, "fp6" }, 10, // { X86_REG_FP7, "fp7" }, 2, // { X86_REG_K0, "k0" }, 2, // { X86_REG_K1, "k1" }, 2, // { X86_REG_K2, "k2" }, 2, // { X86_REG_K3, "k3" }, 2, // { X86_REG_K4, "k4" }, 2, // { X86_REG_K5, "k5" }, 2, // { X86_REG_K6, "k6" }, 2, // { X86_REG_K7, "k7" }, 8, // { X86_REG_MM0, "mm0" }, 8, // { X86_REG_MM1, "mm1" }, 8, // { X86_REG_MM2, "mm2" }, 8, // { X86_REG_MM3, "mm3" }, 8, // { X86_REG_MM4, "mm4" }, 8, // { X86_REG_MM5, "mm5" }, 8, // { X86_REG_MM6, "mm6" }, 8, // { X86_REG_MM7, "mm7" }, 8, // { X86_REG_R8, "r8" }, 8, // { X86_REG_R9, "r9" }, 8, // { X86_REG_R10, "r10" }, 8, // { X86_REG_R11, "r11" }, 8, // { X86_REG_R12, "r12" }, 8, // { X86_REG_R13, "r13" }, 8, // { X86_REG_R14, "r14" }, 8, // { X86_REG_R15, "r15" }, 10, // { X86_REG_ST0, "st0" }, 10, // { X86_REG_ST1, "st1" }, 10, // { X86_REG_ST2, "st2" }, 10, // { X86_REG_ST3, "st3" }, 10, // { X86_REG_ST4, "st4" }, 10, // { X86_REG_ST5, "st5" }, 10, // { X86_REG_ST6, "st6" }, 10, // { X86_REG_ST7, "st7" }, 16, // { X86_REG_XMM0, "xmm0" }, 16, // { X86_REG_XMM1, "xmm1" }, 16, // { X86_REG_XMM2, "xmm2" }, 16, // { X86_REG_XMM3, "xmm3" }, 16, // { X86_REG_XMM4, "xmm4" }, 16, // { X86_REG_XMM5, "xmm5" }, 16, // { X86_REG_XMM6, "xmm6" }, 16, // { X86_REG_XMM7, "xmm7" }, 16, // { X86_REG_XMM8, "xmm8" }, 16, // { X86_REG_XMM9, "xmm9" }, 16, // { X86_REG_XMM10, "xmm10" }, 16, // { X86_REG_XMM11, "xmm11" }, 16, // { X86_REG_XMM12, "xmm12" }, 16, // { X86_REG_XMM13, "xmm13" }, 16, // { X86_REG_XMM14, "xmm14" }, 16, // { X86_REG_XMM15, "xmm15" }, 16, // { X86_REG_XMM16, "xmm16" }, 16, // { X86_REG_XMM17, "xmm17" }, 16, // { X86_REG_XMM18, "xmm18" }, 16, // { X86_REG_XMM19, "xmm19" }, 16, // { X86_REG_XMM20, "xmm20" }, 16, // { X86_REG_XMM21, "xmm21" }, 16, // { X86_REG_XMM22, "xmm22" }, 16, // { X86_REG_XMM23, "xmm23" }, 16, // { X86_REG_XMM24, "xmm24" }, 16, // { X86_REG_XMM25, "xmm25" }, 16, // { X86_REG_XMM26, "xmm26" }, 16, // { X86_REG_XMM27, "xmm27" }, 16, // { X86_REG_XMM28, "xmm28" }, 16, // { X86_REG_XMM29, "xmm29" }, 16, // { X86_REG_XMM30, "xmm30" }, 16, // { X86_REG_XMM31, "xmm31" }, 32, // { X86_REG_YMM0, "ymm0" }, 32, // { X86_REG_YMM1, "ymm1" }, 32, // { X86_REG_YMM2, "ymm2" }, 32, // { X86_REG_YMM3, "ymm3" }, 32, // { X86_REG_YMM4, "ymm4" }, 32, // { X86_REG_YMM5, "ymm5" }, 32, // { X86_REG_YMM6, "ymm6" }, 32, // { X86_REG_YMM7, "ymm7" }, 32, // { X86_REG_YMM8, "ymm8" }, 32, // { X86_REG_YMM9, "ymm9" }, 32, // { X86_REG_YMM10, "ymm10" }, 32, // { X86_REG_YMM11, "ymm11" }, 32, // { X86_REG_YMM12, "ymm12" }, 32, // { X86_REG_YMM13, "ymm13" }, 32, // { X86_REG_YMM14, "ymm14" }, 32, // { X86_REG_YMM15, "ymm15" }, 32, // { X86_REG_YMM16, "ymm16" }, 32, // { X86_REG_YMM17, "ymm17" }, 32, // { X86_REG_YMM18, "ymm18" }, 32, // { X86_REG_YMM19, "ymm19" }, 32, // { X86_REG_YMM20, "ymm20" }, 32, // { X86_REG_YMM21, "ymm21" }, 32, // { X86_REG_YMM22, "ymm22" }, 32, // { X86_REG_YMM23, "ymm23" }, 32, // { X86_REG_YMM24, "ymm24" }, 32, // { X86_REG_YMM25, "ymm25" }, 32, // { X86_REG_YMM26, "ymm26" }, 32, // { X86_REG_YMM27, "ymm27" }, 32, // { X86_REG_YMM28, "ymm28" }, 32, // { X86_REG_YMM29, "ymm29" }, 32, // { X86_REG_YMM30, "ymm30" }, 32, // { X86_REG_YMM31, "ymm31" }, 64, // { X86_REG_ZMM0, "zmm0" }, 64, // { X86_REG_ZMM1, "zmm1" }, 64, // { X86_REG_ZMM2, "zmm2" }, 64, // { X86_REG_ZMM3, "zmm3" }, 64, // { X86_REG_ZMM4, "zmm4" }, 64, // { X86_REG_ZMM5, "zmm5" }, 64, // { X86_REG_ZMM6, "zmm6" }, 64, // { X86_REG_ZMM7, "zmm7" }, 64, // { X86_REG_ZMM8, "zmm8" }, 64, // { X86_REG_ZMM9, "zmm9" }, 64, // { X86_REG_ZMM10, "zmm10" }, 64, // { X86_REG_ZMM11, "zmm11" }, 64, // { X86_REG_ZMM12, "zmm12" }, 64, // { X86_REG_ZMM13, "zmm13" }, 64, // { X86_REG_ZMM14, "zmm14" }, 64, // { X86_REG_ZMM15, "zmm15" }, 64, // { X86_REG_ZMM16, "zmm16" }, 64, // { X86_REG_ZMM17, "zmm17" }, 64, // { X86_REG_ZMM18, "zmm18" }, 64, // { X86_REG_ZMM19, "zmm19" }, 64, // { X86_REG_ZMM20, "zmm20" }, 64, // { X86_REG_ZMM21, "zmm21" }, 64, // { X86_REG_ZMM22, "zmm22" }, 64, // { X86_REG_ZMM23, "zmm23" }, 64, // { X86_REG_ZMM24, "zmm24" }, 64, // { X86_REG_ZMM25, "zmm25" }, 64, // { X86_REG_ZMM26, "zmm26" }, 64, // { X86_REG_ZMM27, "zmm27" }, 64, // { X86_REG_ZMM28, "zmm28" }, 64, // { X86_REG_ZMM29, "zmm29" }, 64, // { X86_REG_ZMM30, "zmm30" }, 64, // { X86_REG_ZMM31, "zmm31" }, 1, // { X86_REG_R8B, "r8b" }, 1, // { X86_REG_R9B, "r9b" }, 1, // { X86_REG_R10B, "r10b" }, 1, // { X86_REG_R11B, "r11b" }, 1, // { X86_REG_R12B, "r12b" }, 1, // { X86_REG_R13B, "r13b" }, 1, // { X86_REG_R14B, "r14b" }, 1, // { X86_REG_R15B, "r15b" }, 4, // { X86_REG_R8D, "r8d" }, 4, // { X86_REG_R9D, "r9d" }, 4, // { X86_REG_R10D, "r10d" }, 4, // { X86_REG_R11D, "r11d" }, 4, // { X86_REG_R12D, "r12d" }, 4, // { X86_REG_R13D, "r13d" }, 4, // { X86_REG_R14D, "r14d" }, 4, // { X86_REG_R15D, "r15d" }, 2, // { X86_REG_R8W, "r8w" }, 2, // { X86_REG_R9W, "r9w" }, 2, // { X86_REG_R10W, "r10w" }, 2, // { X86_REG_R11W, "r11w" }, 2, // { X86_REG_R12W, "r12w" }, 2, // { X86_REG_R13W, "r13w" }, 2, // { X86_REG_R14W, "r14w" }, 2, // { X86_REG_R15W, "r15w" }, }; const char *X86_reg_name(csh handle, unsigned int reg) { #ifndef CAPSTONE_DIET cs_struct *ud = (cs_struct *)handle; if (reg >= ARR_SIZE(reg_name_maps)) return NULL; if (reg == X86_REG_EFLAGS) { if (ud->mode & CS_MODE_32) return "eflags"; if (ud->mode & CS_MODE_64) return "rflags"; } return reg_name_maps[reg].name; #else return NULL; #endif } #ifndef CAPSTONE_DIET static const name_map insn_name_maps[] = { { X86_INS_INVALID, NULL }, { X86_INS_AAA, "aaa" }, { X86_INS_AAD, "aad" }, { X86_INS_AAM, "aam" }, { X86_INS_AAS, "aas" }, { X86_INS_FABS, "fabs" }, { X86_INS_ADC, "adc" }, { X86_INS_ADCX, "adcx" }, { X86_INS_ADD, "add" }, { X86_INS_ADDPD, "addpd" }, { X86_INS_ADDPS, "addps" }, { X86_INS_ADDSD, "addsd" }, { X86_INS_ADDSS, "addss" }, { X86_INS_ADDSUBPD, "addsubpd" }, { X86_INS_ADDSUBPS, "addsubps" }, { X86_INS_FADD, "fadd" }, { X86_INS_FIADD, "fiadd" }, { X86_INS_FADDP, "faddp" }, { X86_INS_ADOX, "adox" }, { X86_INS_AESDECLAST, "aesdeclast" }, { X86_INS_AESDEC, "aesdec" }, { X86_INS_AESENCLAST, "aesenclast" }, { X86_INS_AESENC, "aesenc" }, { X86_INS_AESIMC, "aesimc" }, { X86_INS_AESKEYGENASSIST, "aeskeygenassist" }, { X86_INS_AND, "and" }, { X86_INS_ANDN, "andn" }, { X86_INS_ANDNPD, "andnpd" }, { X86_INS_ANDNPS, "andnps" }, { X86_INS_ANDPD, "andpd" }, { X86_INS_ANDPS, "andps" }, { X86_INS_ARPL, "arpl" }, { X86_INS_BEXTR, "bextr" }, { X86_INS_BLCFILL, "blcfill" }, { X86_INS_BLCI, "blci" }, { X86_INS_BLCIC, "blcic" }, { X86_INS_BLCMSK, "blcmsk" }, { X86_INS_BLCS, "blcs" }, { X86_INS_BLENDPD, "blendpd" }, { X86_INS_BLENDPS, "blendps" }, { X86_INS_BLENDVPD, "blendvpd" }, { X86_INS_BLENDVPS, "blendvps" }, { X86_INS_BLSFILL, "blsfill" }, { X86_INS_BLSI, "blsi" }, { X86_INS_BLSIC, "blsic" }, { X86_INS_BLSMSK, "blsmsk" }, { X86_INS_BLSR, "blsr" }, { X86_INS_BOUND, "bound" }, { X86_INS_BSF, "bsf" }, { X86_INS_BSR, "bsr" }, { X86_INS_BSWAP, "bswap" }, { X86_INS_BT, "bt" }, { X86_INS_BTC, "btc" }, { X86_INS_BTR, "btr" }, { X86_INS_BTS, "bts" }, { X86_INS_BZHI, "bzhi" }, { X86_INS_CALL, "call" }, { X86_INS_CBW, "cbw" }, { X86_INS_CDQ, "cdq" }, { X86_INS_CDQE, "cdqe" }, { X86_INS_FCHS, "fchs" }, { X86_INS_CLAC, "clac" }, { X86_INS_CLC, "clc" }, { X86_INS_CLD, "cld" }, { X86_INS_CLFLUSH, "clflush" }, { X86_INS_CLFLUSHOPT, "clflushopt" }, { X86_INS_CLGI, "clgi" }, { X86_INS_CLI, "cli" }, { X86_INS_CLTS, "clts" }, { X86_INS_CLWB, "clwb" }, { X86_INS_CMC, "cmc" }, { X86_INS_CMOVA, "cmova" }, { X86_INS_CMOVAE, "cmovae" }, { X86_INS_CMOVB, "cmovb" }, { X86_INS_CMOVBE, "cmovbe" }, { X86_INS_FCMOVBE, "fcmovbe" }, { X86_INS_FCMOVB, "fcmovb" }, { X86_INS_CMOVE, "cmove" }, { X86_INS_FCMOVE, "fcmove" }, { X86_INS_CMOVG, "cmovg" }, { X86_INS_CMOVGE, "cmovge" }, { X86_INS_CMOVL, "cmovl" }, { X86_INS_CMOVLE, "cmovle" }, { X86_INS_FCMOVNBE, "fcmovnbe" }, { X86_INS_FCMOVNB, "fcmovnb" }, { X86_INS_CMOVNE, "cmovne" }, { X86_INS_FCMOVNE, "fcmovne" }, { X86_INS_CMOVNO, "cmovno" }, { X86_INS_CMOVNP, "cmovnp" }, { X86_INS_FCMOVNU, "fcmovnu" }, { X86_INS_CMOVNS, "cmovns" }, { X86_INS_CMOVO, "cmovo" }, { X86_INS_CMOVP, "cmovp" }, { X86_INS_FCMOVU, "fcmovu" }, { X86_INS_CMOVS, "cmovs" }, { X86_INS_CMP, "cmp" }, { X86_INS_CMPSB, "cmpsb" }, { X86_INS_CMPSQ, "cmpsq" }, { X86_INS_CMPSW, "cmpsw" }, { X86_INS_CMPXCHG16B, "cmpxchg16b" }, { X86_INS_CMPXCHG, "cmpxchg" }, { X86_INS_CMPXCHG8B, "cmpxchg8b" }, { X86_INS_COMISD, "comisd" }, { X86_INS_COMISS, "comiss" }, { X86_INS_FCOMP, "fcomp" }, { X86_INS_FCOMIP, "fcomip" }, { X86_INS_FCOMI, "fcomi" }, { X86_INS_FCOM, "fcom" }, { X86_INS_FCOS, "fcos" }, { X86_INS_CPUID, "cpuid" }, { X86_INS_CQO, "cqo" }, { X86_INS_CRC32, "crc32" }, { X86_INS_CVTDQ2PD, "cvtdq2pd" }, { X86_INS_CVTDQ2PS, "cvtdq2ps" }, { X86_INS_CVTPD2DQ, "cvtpd2dq" }, { X86_INS_CVTPD2PS, "cvtpd2ps" }, { X86_INS_CVTPS2DQ, "cvtps2dq" }, { X86_INS_CVTPS2PD, "cvtps2pd" }, { X86_INS_CVTSD2SI, "cvtsd2si" }, { X86_INS_CVTSD2SS, "cvtsd2ss" }, { X86_INS_CVTSI2SD, "cvtsi2sd" }, { X86_INS_CVTSI2SS, "cvtsi2ss" }, { X86_INS_CVTSS2SD, "cvtss2sd" }, { X86_INS_CVTSS2SI, "cvtss2si" }, { X86_INS_CVTTPD2DQ, "cvttpd2dq" }, { X86_INS_CVTTPS2DQ, "cvttps2dq" }, { X86_INS_CVTTSD2SI, "cvttsd2si" }, { X86_INS_CVTTSS2SI, "cvttss2si" }, { X86_INS_CWD, "cwd" }, { X86_INS_CWDE, "cwde" }, { X86_INS_DAA, "daa" }, { X86_INS_DAS, "das" }, { X86_INS_DATA16, "data16" }, { X86_INS_DEC, "dec" }, { X86_INS_DIV, "div" }, { X86_INS_DIVPD, "divpd" }, { X86_INS_DIVPS, "divps" }, { X86_INS_FDIVR, "fdivr" }, { X86_INS_FIDIVR, "fidivr" }, { X86_INS_FDIVRP, "fdivrp" }, { X86_INS_DIVSD, "divsd" }, { X86_INS_DIVSS, "divss" }, { X86_INS_FDIV, "fdiv" }, { X86_INS_FIDIV, "fidiv" }, { X86_INS_FDIVP, "fdivp" }, { X86_INS_DPPD, "dppd" }, { X86_INS_DPPS, "dpps" }, { X86_INS_RET, "ret" }, { X86_INS_ENCLS, "encls" }, { X86_INS_ENCLU, "enclu" }, { X86_INS_ENTER, "enter" }, { X86_INS_EXTRACTPS, "extractps" }, { X86_INS_EXTRQ, "extrq" }, { X86_INS_F2XM1, "f2xm1" }, { X86_INS_LCALL, "lcall" }, { X86_INS_LJMP, "ljmp" }, { X86_INS_FBLD, "fbld" }, { X86_INS_FBSTP, "fbstp" }, { X86_INS_FCOMPP, "fcompp" }, { X86_INS_FDECSTP, "fdecstp" }, { X86_INS_FEMMS, "femms" }, { X86_INS_FFREE, "ffree" }, { X86_INS_FICOM, "ficom" }, { X86_INS_FICOMP, "ficomp" }, { X86_INS_FINCSTP, "fincstp" }, { X86_INS_FLDCW, "fldcw" }, { X86_INS_FLDENV, "fldenv" }, { X86_INS_FLDL2E, "fldl2e" }, { X86_INS_FLDL2T, "fldl2t" }, { X86_INS_FLDLG2, "fldlg2" }, { X86_INS_FLDLN2, "fldln2" }, { X86_INS_FLDPI, "fldpi" }, { X86_INS_FNCLEX, "fnclex" }, { X86_INS_FNINIT, "fninit" }, { X86_INS_FNOP, "fnop" }, { X86_INS_FNSTCW, "fnstcw" }, { X86_INS_FNSTSW, "fnstsw" }, { X86_INS_FPATAN, "fpatan" }, { X86_INS_FPREM, "fprem" }, { X86_INS_FPREM1, "fprem1" }, { X86_INS_FPTAN, "fptan" }, { X86_INS_FFREEP, "ffreep" }, { X86_INS_FRNDINT, "frndint" }, { X86_INS_FRSTOR, "frstor" }, { X86_INS_FNSAVE, "fnsave" }, { X86_INS_FSCALE, "fscale" }, { X86_INS_FSETPM, "fsetpm" }, { X86_INS_FSINCOS, "fsincos" }, { X86_INS_FNSTENV, "fnstenv" }, { X86_INS_FXAM, "fxam" }, { X86_INS_FXRSTOR, "fxrstor" }, { X86_INS_FXRSTOR64, "fxrstor64" }, { X86_INS_FXSAVE, "fxsave" }, { X86_INS_FXSAVE64, "fxsave64" }, { X86_INS_FXTRACT, "fxtract" }, { X86_INS_FYL2X, "fyl2x" }, { X86_INS_FYL2XP1, "fyl2xp1" }, { X86_INS_MOVAPD, "movapd" }, { X86_INS_MOVAPS, "movaps" }, { X86_INS_ORPD, "orpd" }, { X86_INS_ORPS, "orps" }, { X86_INS_VMOVAPD, "vmovapd" }, { X86_INS_VMOVAPS, "vmovaps" }, { X86_INS_XORPD, "xorpd" }, { X86_INS_XORPS, "xorps" }, { X86_INS_GETSEC, "getsec" }, { X86_INS_HADDPD, "haddpd" }, { X86_INS_HADDPS, "haddps" }, { X86_INS_HLT, "hlt" }, { X86_INS_HSUBPD, "hsubpd" }, { X86_INS_HSUBPS, "hsubps" }, { X86_INS_IDIV, "idiv" }, { X86_INS_FILD, "fild" }, { X86_INS_IMUL, "imul" }, { X86_INS_IN, "in" }, { X86_INS_INC, "inc" }, { X86_INS_INSB, "insb" }, { X86_INS_INSERTPS, "insertps" }, { X86_INS_INSERTQ, "insertq" }, { X86_INS_INSD, "insd" }, { X86_INS_INSW, "insw" }, { X86_INS_INT, "int" }, { X86_INS_INT1, "int1" }, { X86_INS_INT3, "int3" }, { X86_INS_INTO, "into" }, { X86_INS_INVD, "invd" }, { X86_INS_INVEPT, "invept" }, { X86_INS_INVLPG, "invlpg" }, { X86_INS_INVLPGA, "invlpga" }, { X86_INS_INVPCID, "invpcid" }, { X86_INS_INVVPID, "invvpid" }, { X86_INS_IRET, "iret" }, { X86_INS_IRETD, "iretd" }, { X86_INS_IRETQ, "iretq" }, { X86_INS_FISTTP, "fisttp" }, { X86_INS_FIST, "fist" }, { X86_INS_FISTP, "fistp" }, { X86_INS_UCOMISD, "ucomisd" }, { X86_INS_UCOMISS, "ucomiss" }, { X86_INS_VCOMISD, "vcomisd" }, { X86_INS_VCOMISS, "vcomiss" }, { X86_INS_VCVTSD2SS, "vcvtsd2ss" }, { X86_INS_VCVTSI2SD, "vcvtsi2sd" }, { X86_INS_VCVTSI2SS, "vcvtsi2ss" }, { X86_INS_VCVTSS2SD, "vcvtss2sd" }, { X86_INS_VCVTTSD2SI, "vcvttsd2si" }, { X86_INS_VCVTTSD2USI, "vcvttsd2usi" }, { X86_INS_VCVTTSS2SI, "vcvttss2si" }, { X86_INS_VCVTTSS2USI, "vcvttss2usi" }, { X86_INS_VCVTUSI2SD, "vcvtusi2sd" }, { X86_INS_VCVTUSI2SS, "vcvtusi2ss" }, { X86_INS_VUCOMISD, "vucomisd" }, { X86_INS_VUCOMISS, "vucomiss" }, { X86_INS_JAE, "jae" }, { X86_INS_JA, "ja" }, { X86_INS_JBE, "jbe" }, { X86_INS_JB, "jb" }, { X86_INS_JCXZ, "jcxz" }, { X86_INS_JECXZ, "jecxz" }, { X86_INS_JE, "je" }, { X86_INS_JGE, "jge" }, { X86_INS_JG, "jg" }, { X86_INS_JLE, "jle" }, { X86_INS_JL, "jl" }, { X86_INS_JMP, "jmp" }, { X86_INS_JNE, "jne" }, { X86_INS_JNO, "jno" }, { X86_INS_JNP, "jnp" }, { X86_INS_JNS, "jns" }, { X86_INS_JO, "jo" }, { X86_INS_JP, "jp" }, { X86_INS_JRCXZ, "jrcxz" }, { X86_INS_JS, "js" }, { X86_INS_KANDB, "kandb" }, { X86_INS_KANDD, "kandd" }, { X86_INS_KANDNB, "kandnb" }, { X86_INS_KANDND, "kandnd" }, { X86_INS_KANDNQ, "kandnq" }, { X86_INS_KANDNW, "kandnw" }, { X86_INS_KANDQ, "kandq" }, { X86_INS_KANDW, "kandw" }, { X86_INS_KMOVB, "kmovb" }, { X86_INS_KMOVD, "kmovd" }, { X86_INS_KMOVQ, "kmovq" }, { X86_INS_KMOVW, "kmovw" }, { X86_INS_KNOTB, "knotb" }, { X86_INS_KNOTD, "knotd" }, { X86_INS_KNOTQ, "knotq" }, { X86_INS_KNOTW, "knotw" }, { X86_INS_KORB, "korb" }, { X86_INS_KORD, "kord" }, { X86_INS_KORQ, "korq" }, { X86_INS_KORTESTB, "kortestb" }, { X86_INS_KORTESTD, "kortestd" }, { X86_INS_KORTESTQ, "kortestq" }, { X86_INS_KORTESTW, "kortestw" }, { X86_INS_KORW, "korw" }, { X86_INS_KSHIFTLB, "kshiftlb" }, { X86_INS_KSHIFTLD, "kshiftld" }, { X86_INS_KSHIFTLQ, "kshiftlq" }, { X86_INS_KSHIFTLW, "kshiftlw" }, { X86_INS_KSHIFTRB, "kshiftrb" }, { X86_INS_KSHIFTRD, "kshiftrd" }, { X86_INS_KSHIFTRQ, "kshiftrq" }, { X86_INS_KSHIFTRW, "kshiftrw" }, { X86_INS_KUNPCKBW, "kunpckbw" }, { X86_INS_KXNORB, "kxnorb" }, { X86_INS_KXNORD, "kxnord" }, { X86_INS_KXNORQ, "kxnorq" }, { X86_INS_KXNORW, "kxnorw" }, { X86_INS_KXORB, "kxorb" }, { X86_INS_KXORD, "kxord" }, { X86_INS_KXORQ, "kxorq" }, { X86_INS_KXORW, "kxorw" }, { X86_INS_LAHF, "lahf" }, { X86_INS_LAR, "lar" }, { X86_INS_LDDQU, "lddqu" }, { X86_INS_LDMXCSR, "ldmxcsr" }, { X86_INS_LDS, "lds" }, { X86_INS_FLDZ, "fldz" }, { X86_INS_FLD1, "fld1" }, { X86_INS_FLD, "fld" }, { X86_INS_LEA, "lea" }, { X86_INS_LEAVE, "leave" }, { X86_INS_LES, "les" }, { X86_INS_LFENCE, "lfence" }, { X86_INS_LFS, "lfs" }, { X86_INS_LGDT, "lgdt" }, { X86_INS_LGS, "lgs" }, { X86_INS_LIDT, "lidt" }, { X86_INS_LLDT, "lldt" }, { X86_INS_LMSW, "lmsw" }, { X86_INS_OR, "or" }, { X86_INS_SUB, "sub" }, { X86_INS_XOR, "xor" }, { X86_INS_LODSB, "lodsb" }, { X86_INS_LODSD, "lodsd" }, { X86_INS_LODSQ, "lodsq" }, { X86_INS_LODSW, "lodsw" }, { X86_INS_LOOP, "loop" }, { X86_INS_LOOPE, "loope" }, { X86_INS_LOOPNE, "loopne" }, { X86_INS_RETF, "retf" }, { X86_INS_RETFQ, "retfq" }, { X86_INS_LSL, "lsl" }, { X86_INS_LSS, "lss" }, { X86_INS_LTR, "ltr" }, { X86_INS_XADD, "xadd" }, { X86_INS_LZCNT, "lzcnt" }, { X86_INS_MASKMOVDQU, "maskmovdqu" }, { X86_INS_MAXPD, "maxpd" }, { X86_INS_MAXPS, "maxps" }, { X86_INS_MAXSD, "maxsd" }, { X86_INS_MAXSS, "maxss" }, { X86_INS_MFENCE, "mfence" }, { X86_INS_MINPD, "minpd" }, { X86_INS_MINPS, "minps" }, { X86_INS_MINSD, "minsd" }, { X86_INS_MINSS, "minss" }, { X86_INS_CVTPD2PI, "cvtpd2pi" }, { X86_INS_CVTPI2PD, "cvtpi2pd" }, { X86_INS_CVTPI2PS, "cvtpi2ps" }, { X86_INS_CVTPS2PI, "cvtps2pi" }, { X86_INS_CVTTPD2PI, "cvttpd2pi" }, { X86_INS_CVTTPS2PI, "cvttps2pi" }, { X86_INS_EMMS, "emms" }, { X86_INS_MASKMOVQ, "maskmovq" }, { X86_INS_MOVD, "movd" }, { X86_INS_MOVDQ2Q, "movdq2q" }, { X86_INS_MOVNTQ, "movntq" }, { X86_INS_MOVQ2DQ, "movq2dq" }, { X86_INS_MOVQ, "movq" }, { X86_INS_PABSB, "pabsb" }, { X86_INS_PABSD, "pabsd" }, { X86_INS_PABSW, "pabsw" }, { X86_INS_PACKSSDW, "packssdw" }, { X86_INS_PACKSSWB, "packsswb" }, { X86_INS_PACKUSWB, "packuswb" }, { X86_INS_PADDB, "paddb" }, { X86_INS_PADDD, "paddd" }, { X86_INS_PADDQ, "paddq" }, { X86_INS_PADDSB, "paddsb" }, { X86_INS_PADDSW, "paddsw" }, { X86_INS_PADDUSB, "paddusb" }, { X86_INS_PADDUSW, "paddusw" }, { X86_INS_PADDW, "paddw" }, { X86_INS_PALIGNR, "palignr" }, { X86_INS_PANDN, "pandn" }, { X86_INS_PAND, "pand" }, { X86_INS_PAVGB, "pavgb" }, { X86_INS_PAVGW, "pavgw" }, { X86_INS_PCMPEQB, "pcmpeqb" }, { X86_INS_PCMPEQD, "pcmpeqd" }, { X86_INS_PCMPEQW, "pcmpeqw" }, { X86_INS_PCMPGTB, "pcmpgtb" }, { X86_INS_PCMPGTD, "pcmpgtd" }, { X86_INS_PCMPGTW, "pcmpgtw" }, { X86_INS_PEXTRW, "pextrw" }, { X86_INS_PHADDSW, "phaddsw" }, { X86_INS_PHADDW, "phaddw" }, { X86_INS_PHADDD, "phaddd" }, { X86_INS_PHSUBD, "phsubd" }, { X86_INS_PHSUBSW, "phsubsw" }, { X86_INS_PHSUBW, "phsubw" }, { X86_INS_PINSRW, "pinsrw" }, { X86_INS_PMADDUBSW, "pmaddubsw" }, { X86_INS_PMADDWD, "pmaddwd" }, { X86_INS_PMAXSW, "pmaxsw" }, { X86_INS_PMAXUB, "pmaxub" }, { X86_INS_PMINSW, "pminsw" }, { X86_INS_PMINUB, "pminub" }, { X86_INS_PMOVMSKB, "pmovmskb" }, { X86_INS_PMULHRSW, "pmulhrsw" }, { X86_INS_PMULHUW, "pmulhuw" }, { X86_INS_PMULHW, "pmulhw" }, { X86_INS_PMULLW, "pmullw" }, { X86_INS_PMULUDQ, "pmuludq" }, { X86_INS_POR, "por" }, { X86_INS_PSADBW, "psadbw" }, { X86_INS_PSHUFB, "pshufb" }, { X86_INS_PSHUFW, "pshufw" }, { X86_INS_PSIGNB, "psignb" }, { X86_INS_PSIGND, "psignd" }, { X86_INS_PSIGNW, "psignw" }, { X86_INS_PSLLD, "pslld" }, { X86_INS_PSLLQ, "psllq" }, { X86_INS_PSLLW, "psllw" }, { X86_INS_PSRAD, "psrad" }, { X86_INS_PSRAW, "psraw" }, { X86_INS_PSRLD, "psrld" }, { X86_INS_PSRLQ, "psrlq" }, { X86_INS_PSRLW, "psrlw" }, { X86_INS_PSUBB, "psubb" }, { X86_INS_PSUBD, "psubd" }, { X86_INS_PSUBQ, "psubq" }, { X86_INS_PSUBSB, "psubsb" }, { X86_INS_PSUBSW, "psubsw" }, { X86_INS_PSUBUSB, "psubusb" }, { X86_INS_PSUBUSW, "psubusw" }, { X86_INS_PSUBW, "psubw" }, { X86_INS_PUNPCKHBW, "punpckhbw" }, { X86_INS_PUNPCKHDQ, "punpckhdq" }, { X86_INS_PUNPCKHWD, "punpckhwd" }, { X86_INS_PUNPCKLBW, "punpcklbw" }, { X86_INS_PUNPCKLDQ, "punpckldq" }, { X86_INS_PUNPCKLWD, "punpcklwd" }, { X86_INS_PXOR, "pxor" }, { X86_INS_MONITOR, "monitor" }, { X86_INS_MONTMUL, "montmul" }, { X86_INS_MOV, "mov" }, { X86_INS_MOVABS, "movabs" }, { X86_INS_MOVBE, "movbe" }, { X86_INS_MOVDDUP, "movddup" }, { X86_INS_MOVDQA, "movdqa" }, { X86_INS_MOVDQU, "movdqu" }, { X86_INS_MOVHLPS, "movhlps" }, { X86_INS_MOVHPD, "movhpd" }, { X86_INS_MOVHPS, "movhps" }, { X86_INS_MOVLHPS, "movlhps" }, { X86_INS_MOVLPD, "movlpd" }, { X86_INS_MOVLPS, "movlps" }, { X86_INS_MOVMSKPD, "movmskpd" }, { X86_INS_MOVMSKPS, "movmskps" }, { X86_INS_MOVNTDQA, "movntdqa" }, { X86_INS_MOVNTDQ, "movntdq" }, { X86_INS_MOVNTI, "movnti" }, { X86_INS_MOVNTPD, "movntpd" }, { X86_INS_MOVNTPS, "movntps" }, { X86_INS_MOVNTSD, "movntsd" }, { X86_INS_MOVNTSS, "movntss" }, { X86_INS_MOVSB, "movsb" }, { X86_INS_MOVSD, "movsd" }, { X86_INS_MOVSHDUP, "movshdup" }, { X86_INS_MOVSLDUP, "movsldup" }, { X86_INS_MOVSQ, "movsq" }, { X86_INS_MOVSS, "movss" }, { X86_INS_MOVSW, "movsw" }, { X86_INS_MOVSX, "movsx" }, { X86_INS_MOVSXD, "movsxd" }, { X86_INS_MOVUPD, "movupd" }, { X86_INS_MOVUPS, "movups" }, { X86_INS_MOVZX, "movzx" }, { X86_INS_MPSADBW, "mpsadbw" }, { X86_INS_MUL, "mul" }, { X86_INS_MULPD, "mulpd" }, { X86_INS_MULPS, "mulps" }, { X86_INS_MULSD, "mulsd" }, { X86_INS_MULSS, "mulss" }, { X86_INS_MULX, "mulx" }, { X86_INS_FMUL, "fmul" }, { X86_INS_FIMUL, "fimul" }, { X86_INS_FMULP, "fmulp" }, { X86_INS_MWAIT, "mwait" }, { X86_INS_NEG, "neg" }, { X86_INS_NOP, "nop" }, { X86_INS_NOT, "not" }, { X86_INS_OUT, "out" }, { X86_INS_OUTSB, "outsb" }, { X86_INS_OUTSD, "outsd" }, { X86_INS_OUTSW, "outsw" }, { X86_INS_PACKUSDW, "packusdw" }, { X86_INS_PAUSE, "pause" }, { X86_INS_PAVGUSB, "pavgusb" }, { X86_INS_PBLENDVB, "pblendvb" }, { X86_INS_PBLENDW, "pblendw" }, { X86_INS_PCLMULQDQ, "pclmulqdq" }, { X86_INS_PCMPEQQ, "pcmpeqq" }, { X86_INS_PCMPESTRI, "pcmpestri" }, { X86_INS_PCMPESTRM, "pcmpestrm" }, { X86_INS_PCMPGTQ, "pcmpgtq" }, { X86_INS_PCMPISTRI, "pcmpistri" }, { X86_INS_PCMPISTRM, "pcmpistrm" }, { X86_INS_PCOMMIT, "pcommit" }, { X86_INS_PDEP, "pdep" }, { X86_INS_PEXT, "pext" }, { X86_INS_PEXTRB, "pextrb" }, { X86_INS_PEXTRD, "pextrd" }, { X86_INS_PEXTRQ, "pextrq" }, { X86_INS_PF2ID, "pf2id" }, { X86_INS_PF2IW, "pf2iw" }, { X86_INS_PFACC, "pfacc" }, { X86_INS_PFADD, "pfadd" }, { X86_INS_PFCMPEQ, "pfcmpeq" }, { X86_INS_PFCMPGE, "pfcmpge" }, { X86_INS_PFCMPGT, "pfcmpgt" }, { X86_INS_PFMAX, "pfmax" }, { X86_INS_PFMIN, "pfmin" }, { X86_INS_PFMUL, "pfmul" }, { X86_INS_PFNACC, "pfnacc" }, { X86_INS_PFPNACC, "pfpnacc" }, { X86_INS_PFRCPIT1, "pfrcpit1" }, { X86_INS_PFRCPIT2, "pfrcpit2" }, { X86_INS_PFRCP, "pfrcp" }, { X86_INS_PFRSQIT1, "pfrsqit1" }, { X86_INS_PFRSQRT, "pfrsqrt" }, { X86_INS_PFSUBR, "pfsubr" }, { X86_INS_PFSUB, "pfsub" }, { X86_INS_PHMINPOSUW, "phminposuw" }, { X86_INS_PI2FD, "pi2fd" }, { X86_INS_PI2FW, "pi2fw" }, { X86_INS_PINSRB, "pinsrb" }, { X86_INS_PINSRD, "pinsrd" }, { X86_INS_PINSRQ, "pinsrq" }, { X86_INS_PMAXSB, "pmaxsb" }, { X86_INS_PMAXSD, "pmaxsd" }, { X86_INS_PMAXUD, "pmaxud" }, { X86_INS_PMAXUW, "pmaxuw" }, { X86_INS_PMINSB, "pminsb" }, { X86_INS_PMINSD, "pminsd" }, { X86_INS_PMINUD, "pminud" }, { X86_INS_PMINUW, "pminuw" }, { X86_INS_PMOVSXBD, "pmovsxbd" }, { X86_INS_PMOVSXBQ, "pmovsxbq" }, { X86_INS_PMOVSXBW, "pmovsxbw" }, { X86_INS_PMOVSXDQ, "pmovsxdq" }, { X86_INS_PMOVSXWD, "pmovsxwd" }, { X86_INS_PMOVSXWQ, "pmovsxwq" }, { X86_INS_PMOVZXBD, "pmovzxbd" }, { X86_INS_PMOVZXBQ, "pmovzxbq" }, { X86_INS_PMOVZXBW, "pmovzxbw" }, { X86_INS_PMOVZXDQ, "pmovzxdq" }, { X86_INS_PMOVZXWD, "pmovzxwd" }, { X86_INS_PMOVZXWQ, "pmovzxwq" }, { X86_INS_PMULDQ, "pmuldq" }, { X86_INS_PMULHRW, "pmulhrw" }, { X86_INS_PMULLD, "pmulld" }, { X86_INS_POP, "pop" }, { X86_INS_POPAW, "popaw" }, { X86_INS_POPAL, "popal" }, { X86_INS_POPCNT, "popcnt" }, { X86_INS_POPF, "popf" }, { X86_INS_POPFD, "popfd" }, { X86_INS_POPFQ, "popfq" }, { X86_INS_PREFETCH, "prefetch" }, { X86_INS_PREFETCHNTA, "prefetchnta" }, { X86_INS_PREFETCHT0, "prefetcht0" }, { X86_INS_PREFETCHT1, "prefetcht1" }, { X86_INS_PREFETCHT2, "prefetcht2" }, { X86_INS_PREFETCHW, "prefetchw" }, { X86_INS_PSHUFD, "pshufd" }, { X86_INS_PSHUFHW, "pshufhw" }, { X86_INS_PSHUFLW, "pshuflw" }, { X86_INS_PSLLDQ, "pslldq" }, { X86_INS_PSRLDQ, "psrldq" }, { X86_INS_PSWAPD, "pswapd" }, { X86_INS_PTEST, "ptest" }, { X86_INS_PUNPCKHQDQ, "punpckhqdq" }, { X86_INS_PUNPCKLQDQ, "punpcklqdq" }, { X86_INS_PUSH, "push" }, { X86_INS_PUSHAW, "pushaw" }, { X86_INS_PUSHAL, "pushal" }, { X86_INS_PUSHF, "pushf" }, { X86_INS_PUSHFD, "pushfd" }, { X86_INS_PUSHFQ, "pushfq" }, { X86_INS_RCL, "rcl" }, { X86_INS_RCPPS, "rcpps" }, { X86_INS_RCPSS, "rcpss" }, { X86_INS_RCR, "rcr" }, { X86_INS_RDFSBASE, "rdfsbase" }, { X86_INS_RDGSBASE, "rdgsbase" }, { X86_INS_RDMSR, "rdmsr" }, { X86_INS_RDPMC, "rdpmc" }, { X86_INS_RDRAND, "rdrand" }, { X86_INS_RDSEED, "rdseed" }, { X86_INS_RDTSC, "rdtsc" }, { X86_INS_RDTSCP, "rdtscp" }, { X86_INS_ROL, "rol" }, { X86_INS_ROR, "ror" }, { X86_INS_RORX, "rorx" }, { X86_INS_ROUNDPD, "roundpd" }, { X86_INS_ROUNDPS, "roundps" }, { X86_INS_ROUNDSD, "roundsd" }, { X86_INS_ROUNDSS, "roundss" }, { X86_INS_RSM, "rsm" }, { X86_INS_RSQRTPS, "rsqrtps" }, { X86_INS_RSQRTSS, "rsqrtss" }, { X86_INS_SAHF, "sahf" }, { X86_INS_SAL, "sal" }, { X86_INS_SALC, "salc" }, { X86_INS_SAR, "sar" }, { X86_INS_SARX, "sarx" }, { X86_INS_SBB, "sbb" }, { X86_INS_SCASB, "scasb" }, { X86_INS_SCASD, "scasd" }, { X86_INS_SCASQ, "scasq" }, { X86_INS_SCASW, "scasw" }, { X86_INS_SETAE, "setae" }, { X86_INS_SETA, "seta" }, { X86_INS_SETBE, "setbe" }, { X86_INS_SETB, "setb" }, { X86_INS_SETE, "sete" }, { X86_INS_SETGE, "setge" }, { X86_INS_SETG, "setg" }, { X86_INS_SETLE, "setle" }, { X86_INS_SETL, "setl" }, { X86_INS_SETNE, "setne" }, { X86_INS_SETNO, "setno" }, { X86_INS_SETNP, "setnp" }, { X86_INS_SETNS, "setns" }, { X86_INS_SETO, "seto" }, { X86_INS_SETP, "setp" }, { X86_INS_SETS, "sets" }, { X86_INS_SFENCE, "sfence" }, { X86_INS_SGDT, "sgdt" }, { X86_INS_SHA1MSG1, "sha1msg1" }, { X86_INS_SHA1MSG2, "sha1msg2" }, { X86_INS_SHA1NEXTE, "sha1nexte" }, { X86_INS_SHA1RNDS4, "sha1rnds4" }, { X86_INS_SHA256MSG1, "sha256msg1" }, { X86_INS_SHA256MSG2, "sha256msg2" }, { X86_INS_SHA256RNDS2, "sha256rnds2" }, { X86_INS_SHL, "shl" }, { X86_INS_SHLD, "shld" }, { X86_INS_SHLX, "shlx" }, { X86_INS_SHR, "shr" }, { X86_INS_SHRD, "shrd" }, { X86_INS_SHRX, "shrx" }, { X86_INS_SHUFPD, "shufpd" }, { X86_INS_SHUFPS, "shufps" }, { X86_INS_SIDT, "sidt" }, { X86_INS_FSIN, "fsin" }, { X86_INS_SKINIT, "skinit" }, { X86_INS_SLDT, "sldt" }, { X86_INS_SMSW, "smsw" }, { X86_INS_SQRTPD, "sqrtpd" }, { X86_INS_SQRTPS, "sqrtps" }, { X86_INS_SQRTSD, "sqrtsd" }, { X86_INS_SQRTSS, "sqrtss" }, { X86_INS_FSQRT, "fsqrt" }, { X86_INS_STAC, "stac" }, { X86_INS_STC, "stc" }, { X86_INS_STD, "std" }, { X86_INS_STGI, "stgi" }, { X86_INS_STI, "sti" }, { X86_INS_STMXCSR, "stmxcsr" }, { X86_INS_STOSB, "stosb" }, { X86_INS_STOSD, "stosd" }, { X86_INS_STOSQ, "stosq" }, { X86_INS_STOSW, "stosw" }, { X86_INS_STR, "str" }, { X86_INS_FST, "fst" }, { X86_INS_FSTP, "fstp" }, { X86_INS_FSTPNCE, "fstpnce" }, { X86_INS_FXCH, "fxch" }, { X86_INS_SUBPD, "subpd" }, { X86_INS_SUBPS, "subps" }, { X86_INS_FSUBR, "fsubr" }, { X86_INS_FISUBR, "fisubr" }, { X86_INS_FSUBRP, "fsubrp" }, { X86_INS_SUBSD, "subsd" }, { X86_INS_SUBSS, "subss" }, { X86_INS_FSUB, "fsub" }, { X86_INS_FISUB, "fisub" }, { X86_INS_FSUBP, "fsubp" }, { X86_INS_SWAPGS, "swapgs" }, { X86_INS_SYSCALL, "syscall" }, { X86_INS_SYSENTER, "sysenter" }, { X86_INS_SYSEXIT, "sysexit" }, { X86_INS_SYSRET, "sysret" }, { X86_INS_T1MSKC, "t1mskc" }, { X86_INS_TEST, "test" }, { X86_INS_UD2, "ud2" }, { X86_INS_FTST, "ftst" }, { X86_INS_TZCNT, "tzcnt" }, { X86_INS_TZMSK, "tzmsk" }, { X86_INS_FUCOMIP, "fucomip" }, { X86_INS_FUCOMI, "fucomi" }, { X86_INS_FUCOMPP, "fucompp" }, { X86_INS_FUCOMP, "fucomp" }, { X86_INS_FUCOM, "fucom" }, { X86_INS_UD2B, "ud2b" }, { X86_INS_UNPCKHPD, "unpckhpd" }, { X86_INS_UNPCKHPS, "unpckhps" }, { X86_INS_UNPCKLPD, "unpcklpd" }, { X86_INS_UNPCKLPS, "unpcklps" }, { X86_INS_VADDPD, "vaddpd" }, { X86_INS_VADDPS, "vaddps" }, { X86_INS_VADDSD, "vaddsd" }, { X86_INS_VADDSS, "vaddss" }, { X86_INS_VADDSUBPD, "vaddsubpd" }, { X86_INS_VADDSUBPS, "vaddsubps" }, { X86_INS_VAESDECLAST, "vaesdeclast" }, { X86_INS_VAESDEC, "vaesdec" }, { X86_INS_VAESENCLAST, "vaesenclast" }, { X86_INS_VAESENC, "vaesenc" }, { X86_INS_VAESIMC, "vaesimc" }, { X86_INS_VAESKEYGENASSIST, "vaeskeygenassist" }, { X86_INS_VALIGND, "valignd" }, { X86_INS_VALIGNQ, "valignq" }, { X86_INS_VANDNPD, "vandnpd" }, { X86_INS_VANDNPS, "vandnps" }, { X86_INS_VANDPD, "vandpd" }, { X86_INS_VANDPS, "vandps" }, { X86_INS_VBLENDMPD, "vblendmpd" }, { X86_INS_VBLENDMPS, "vblendmps" }, { X86_INS_VBLENDPD, "vblendpd" }, { X86_INS_VBLENDPS, "vblendps" }, { X86_INS_VBLENDVPD, "vblendvpd" }, { X86_INS_VBLENDVPS, "vblendvps" }, { X86_INS_VBROADCASTF128, "vbroadcastf128" }, { X86_INS_VBROADCASTI32X4, "vbroadcasti32x4" }, { X86_INS_VBROADCASTI64X4, "vbroadcasti64x4" }, { X86_INS_VBROADCASTSD, "vbroadcastsd" }, { X86_INS_VBROADCASTSS, "vbroadcastss" }, { X86_INS_VCOMPRESSPD, "vcompresspd" }, { X86_INS_VCOMPRESSPS, "vcompressps" }, { X86_INS_VCVTDQ2PD, "vcvtdq2pd" }, { X86_INS_VCVTDQ2PS, "vcvtdq2ps" }, { X86_INS_VCVTPD2DQX, "vcvtpd2dqx" }, { X86_INS_VCVTPD2DQ, "vcvtpd2dq" }, { X86_INS_VCVTPD2PSX, "vcvtpd2psx" }, { X86_INS_VCVTPD2PS, "vcvtpd2ps" }, { X86_INS_VCVTPD2UDQ, "vcvtpd2udq" }, { X86_INS_VCVTPH2PS, "vcvtph2ps" }, { X86_INS_VCVTPS2DQ, "vcvtps2dq" }, { X86_INS_VCVTPS2PD, "vcvtps2pd" }, { X86_INS_VCVTPS2PH, "vcvtps2ph" }, { X86_INS_VCVTPS2UDQ, "vcvtps2udq" }, { X86_INS_VCVTSD2SI, "vcvtsd2si" }, { X86_INS_VCVTSD2USI, "vcvtsd2usi" }, { X86_INS_VCVTSS2SI, "vcvtss2si" }, { X86_INS_VCVTSS2USI, "vcvtss2usi" }, { X86_INS_VCVTTPD2DQX, "vcvttpd2dqx" }, { X86_INS_VCVTTPD2DQ, "vcvttpd2dq" }, { X86_INS_VCVTTPD2UDQ, "vcvttpd2udq" }, { X86_INS_VCVTTPS2DQ, "vcvttps2dq" }, { X86_INS_VCVTTPS2UDQ, "vcvttps2udq" }, { X86_INS_VCVTUDQ2PD, "vcvtudq2pd" }, { X86_INS_VCVTUDQ2PS, "vcvtudq2ps" }, { X86_INS_VDIVPD, "vdivpd" }, { X86_INS_VDIVPS, "vdivps" }, { X86_INS_VDIVSD, "vdivsd" }, { X86_INS_VDIVSS, "vdivss" }, { X86_INS_VDPPD, "vdppd" }, { X86_INS_VDPPS, "vdpps" }, { X86_INS_VERR, "verr" }, { X86_INS_VERW, "verw" }, { X86_INS_VEXP2PD, "vexp2pd" }, { X86_INS_VEXP2PS, "vexp2ps" }, { X86_INS_VEXPANDPD, "vexpandpd" }, { X86_INS_VEXPANDPS, "vexpandps" }, { X86_INS_VEXTRACTF128, "vextractf128" }, { X86_INS_VEXTRACTF32X4, "vextractf32x4" }, { X86_INS_VEXTRACTF64X4, "vextractf64x4" }, { X86_INS_VEXTRACTI128, "vextracti128" }, { X86_INS_VEXTRACTI32X4, "vextracti32x4" }, { X86_INS_VEXTRACTI64X4, "vextracti64x4" }, { X86_INS_VEXTRACTPS, "vextractps" }, { X86_INS_VFMADD132PD, "vfmadd132pd" }, { X86_INS_VFMADD132PS, "vfmadd132ps" }, { X86_INS_VFMADDPD, "vfmaddpd" }, { X86_INS_VFMADD213PD, "vfmadd213pd" }, { X86_INS_VFMADD231PD, "vfmadd231pd" }, { X86_INS_VFMADDPS, "vfmaddps" }, { X86_INS_VFMADD213PS, "vfmadd213ps" }, { X86_INS_VFMADD231PS, "vfmadd231ps" }, { X86_INS_VFMADDSD, "vfmaddsd" }, { X86_INS_VFMADD213SD, "vfmadd213sd" }, { X86_INS_VFMADD132SD, "vfmadd132sd" }, { X86_INS_VFMADD231SD, "vfmadd231sd" }, { X86_INS_VFMADDSS, "vfmaddss" }, { X86_INS_VFMADD213SS, "vfmadd213ss" }, { X86_INS_VFMADD132SS, "vfmadd132ss" }, { X86_INS_VFMADD231SS, "vfmadd231ss" }, { X86_INS_VFMADDSUB132PD, "vfmaddsub132pd" }, { X86_INS_VFMADDSUB132PS, "vfmaddsub132ps" }, { X86_INS_VFMADDSUBPD, "vfmaddsubpd" }, { X86_INS_VFMADDSUB213PD, "vfmaddsub213pd" }, { X86_INS_VFMADDSUB231PD, "vfmaddsub231pd" }, { X86_INS_VFMADDSUBPS, "vfmaddsubps" }, { X86_INS_VFMADDSUB213PS, "vfmaddsub213ps" }, { X86_INS_VFMADDSUB231PS, "vfmaddsub231ps" }, { X86_INS_VFMSUB132PD, "vfmsub132pd" }, { X86_INS_VFMSUB132PS, "vfmsub132ps" }, { X86_INS_VFMSUBADD132PD, "vfmsubadd132pd" }, { X86_INS_VFMSUBADD132PS, "vfmsubadd132ps" }, { X86_INS_VFMSUBADDPD, "vfmsubaddpd" }, { X86_INS_VFMSUBADD213PD, "vfmsubadd213pd" }, { X86_INS_VFMSUBADD231PD, "vfmsubadd231pd" }, { X86_INS_VFMSUBADDPS, "vfmsubaddps" }, { X86_INS_VFMSUBADD213PS, "vfmsubadd213ps" }, { X86_INS_VFMSUBADD231PS, "vfmsubadd231ps" }, { X86_INS_VFMSUBPD, "vfmsubpd" }, { X86_INS_VFMSUB213PD, "vfmsub213pd" }, { X86_INS_VFMSUB231PD, "vfmsub231pd" }, { X86_INS_VFMSUBPS, "vfmsubps" }, { X86_INS_VFMSUB213PS, "vfmsub213ps" }, { X86_INS_VFMSUB231PS, "vfmsub231ps" }, { X86_INS_VFMSUBSD, "vfmsubsd" }, { X86_INS_VFMSUB213SD, "vfmsub213sd" }, { X86_INS_VFMSUB132SD, "vfmsub132sd" }, { X86_INS_VFMSUB231SD, "vfmsub231sd" }, { X86_INS_VFMSUBSS, "vfmsubss" }, { X86_INS_VFMSUB213SS, "vfmsub213ss" }, { X86_INS_VFMSUB132SS, "vfmsub132ss" }, { X86_INS_VFMSUB231SS, "vfmsub231ss" }, { X86_INS_VFNMADD132PD, "vfnmadd132pd" }, { X86_INS_VFNMADD132PS, "vfnmadd132ps" }, { X86_INS_VFNMADDPD, "vfnmaddpd" }, { X86_INS_VFNMADD213PD, "vfnmadd213pd" }, { X86_INS_VFNMADD231PD, "vfnmadd231pd" }, { X86_INS_VFNMADDPS, "vfnmaddps" }, { X86_INS_VFNMADD213PS, "vfnmadd213ps" }, { X86_INS_VFNMADD231PS, "vfnmadd231ps" }, { X86_INS_VFNMADDSD, "vfnmaddsd" }, { X86_INS_VFNMADD213SD, "vfnmadd213sd" }, { X86_INS_VFNMADD132SD, "vfnmadd132sd" }, { X86_INS_VFNMADD231SD, "vfnmadd231sd" }, { X86_INS_VFNMADDSS, "vfnmaddss" }, { X86_INS_VFNMADD213SS, "vfnmadd213ss" }, { X86_INS_VFNMADD132SS, "vfnmadd132ss" }, { X86_INS_VFNMADD231SS, "vfnmadd231ss" }, { X86_INS_VFNMSUB132PD, "vfnmsub132pd" }, { X86_INS_VFNMSUB132PS, "vfnmsub132ps" }, { X86_INS_VFNMSUBPD, "vfnmsubpd" }, { X86_INS_VFNMSUB213PD, "vfnmsub213pd" }, { X86_INS_VFNMSUB231PD, "vfnmsub231pd" }, { X86_INS_VFNMSUBPS, "vfnmsubps" }, { X86_INS_VFNMSUB213PS, "vfnmsub213ps" }, { X86_INS_VFNMSUB231PS, "vfnmsub231ps" }, { X86_INS_VFNMSUBSD, "vfnmsubsd" }, { X86_INS_VFNMSUB213SD, "vfnmsub213sd" }, { X86_INS_VFNMSUB132SD, "vfnmsub132sd" }, { X86_INS_VFNMSUB231SD, "vfnmsub231sd" }, { X86_INS_VFNMSUBSS, "vfnmsubss" }, { X86_INS_VFNMSUB213SS, "vfnmsub213ss" }, { X86_INS_VFNMSUB132SS, "vfnmsub132ss" }, { X86_INS_VFNMSUB231SS, "vfnmsub231ss" }, { X86_INS_VFRCZPD, "vfrczpd" }, { X86_INS_VFRCZPS, "vfrczps" }, { X86_INS_VFRCZSD, "vfrczsd" }, { X86_INS_VFRCZSS, "vfrczss" }, { X86_INS_VORPD, "vorpd" }, { X86_INS_VORPS, "vorps" }, { X86_INS_VXORPD, "vxorpd" }, { X86_INS_VXORPS, "vxorps" }, { X86_INS_VGATHERDPD, "vgatherdpd" }, { X86_INS_VGATHERDPS, "vgatherdps" }, { X86_INS_VGATHERPF0DPD, "vgatherpf0dpd" }, { X86_INS_VGATHERPF0DPS, "vgatherpf0dps" }, { X86_INS_VGATHERPF0QPD, "vgatherpf0qpd" }, { X86_INS_VGATHERPF0QPS, "vgatherpf0qps" }, { X86_INS_VGATHERPF1DPD, "vgatherpf1dpd" }, { X86_INS_VGATHERPF1DPS, "vgatherpf1dps" }, { X86_INS_VGATHERPF1QPD, "vgatherpf1qpd" }, { X86_INS_VGATHERPF1QPS, "vgatherpf1qps" }, { X86_INS_VGATHERQPD, "vgatherqpd" }, { X86_INS_VGATHERQPS, "vgatherqps" }, { X86_INS_VHADDPD, "vhaddpd" }, { X86_INS_VHADDPS, "vhaddps" }, { X86_INS_VHSUBPD, "vhsubpd" }, { X86_INS_VHSUBPS, "vhsubps" }, { X86_INS_VINSERTF128, "vinsertf128" }, { X86_INS_VINSERTF32X4, "vinsertf32x4" }, { X86_INS_VINSERTF32X8, "vinsertf32x8" }, { X86_INS_VINSERTF64X2, "vinsertf64x2" }, { X86_INS_VINSERTF64X4, "vinsertf64x4" }, { X86_INS_VINSERTI128, "vinserti128" }, { X86_INS_VINSERTI32X4, "vinserti32x4" }, { X86_INS_VINSERTI32X8, "vinserti32x8" }, { X86_INS_VINSERTI64X2, "vinserti64x2" }, { X86_INS_VINSERTI64X4, "vinserti64x4" }, { X86_INS_VINSERTPS, "vinsertps" }, { X86_INS_VLDDQU, "vlddqu" }, { X86_INS_VLDMXCSR, "vldmxcsr" }, { X86_INS_VMASKMOVDQU, "vmaskmovdqu" }, { X86_INS_VMASKMOVPD, "vmaskmovpd" }, { X86_INS_VMASKMOVPS, "vmaskmovps" }, { X86_INS_VMAXPD, "vmaxpd" }, { X86_INS_VMAXPS, "vmaxps" }, { X86_INS_VMAXSD, "vmaxsd" }, { X86_INS_VMAXSS, "vmaxss" }, { X86_INS_VMCALL, "vmcall" }, { X86_INS_VMCLEAR, "vmclear" }, { X86_INS_VMFUNC, "vmfunc" }, { X86_INS_VMINPD, "vminpd" }, { X86_INS_VMINPS, "vminps" }, { X86_INS_VMINSD, "vminsd" }, { X86_INS_VMINSS, "vminss" }, { X86_INS_VMLAUNCH, "vmlaunch" }, { X86_INS_VMLOAD, "vmload" }, { X86_INS_VMMCALL, "vmmcall" }, { X86_INS_VMOVQ, "vmovq" }, { X86_INS_VMOVDDUP, "vmovddup" }, { X86_INS_VMOVD, "vmovd" }, { X86_INS_VMOVDQA32, "vmovdqa32" }, { X86_INS_VMOVDQA64, "vmovdqa64" }, { X86_INS_VMOVDQA, "vmovdqa" }, { X86_INS_VMOVDQU16, "vmovdqu16" }, { X86_INS_VMOVDQU32, "vmovdqu32" }, { X86_INS_VMOVDQU64, "vmovdqu64" }, { X86_INS_VMOVDQU8, "vmovdqu8" }, { X86_INS_VMOVDQU, "vmovdqu" }, { X86_INS_VMOVHLPS, "vmovhlps" }, { X86_INS_VMOVHPD, "vmovhpd" }, { X86_INS_VMOVHPS, "vmovhps" }, { X86_INS_VMOVLHPS, "vmovlhps" }, { X86_INS_VMOVLPD, "vmovlpd" }, { X86_INS_VMOVLPS, "vmovlps" }, { X86_INS_VMOVMSKPD, "vmovmskpd" }, { X86_INS_VMOVMSKPS, "vmovmskps" }, { X86_INS_VMOVNTDQA, "vmovntdqa" }, { X86_INS_VMOVNTDQ, "vmovntdq" }, { X86_INS_VMOVNTPD, "vmovntpd" }, { X86_INS_VMOVNTPS, "vmovntps" }, { X86_INS_VMOVSD, "vmovsd" }, { X86_INS_VMOVSHDUP, "vmovshdup" }, { X86_INS_VMOVSLDUP, "vmovsldup" }, { X86_INS_VMOVSS, "vmovss" }, { X86_INS_VMOVUPD, "vmovupd" }, { X86_INS_VMOVUPS, "vmovups" }, { X86_INS_VMPSADBW, "vmpsadbw" }, { X86_INS_VMPTRLD, "vmptrld" }, { X86_INS_VMPTRST, "vmptrst" }, { X86_INS_VMREAD, "vmread" }, { X86_INS_VMRESUME, "vmresume" }, { X86_INS_VMRUN, "vmrun" }, { X86_INS_VMSAVE, "vmsave" }, { X86_INS_VMULPD, "vmulpd" }, { X86_INS_VMULPS, "vmulps" }, { X86_INS_VMULSD, "vmulsd" }, { X86_INS_VMULSS, "vmulss" }, { X86_INS_VMWRITE, "vmwrite" }, { X86_INS_VMXOFF, "vmxoff" }, { X86_INS_VMXON, "vmxon" }, { X86_INS_VPABSB, "vpabsb" }, { X86_INS_VPABSD, "vpabsd" }, { X86_INS_VPABSQ, "vpabsq" }, { X86_INS_VPABSW, "vpabsw" }, { X86_INS_VPACKSSDW, "vpackssdw" }, { X86_INS_VPACKSSWB, "vpacksswb" }, { X86_INS_VPACKUSDW, "vpackusdw" }, { X86_INS_VPACKUSWB, "vpackuswb" }, { X86_INS_VPADDB, "vpaddb" }, { X86_INS_VPADDD, "vpaddd" }, { X86_INS_VPADDQ, "vpaddq" }, { X86_INS_VPADDSB, "vpaddsb" }, { X86_INS_VPADDSW, "vpaddsw" }, { X86_INS_VPADDUSB, "vpaddusb" }, { X86_INS_VPADDUSW, "vpaddusw" }, { X86_INS_VPADDW, "vpaddw" }, { X86_INS_VPALIGNR, "vpalignr" }, { X86_INS_VPANDD, "vpandd" }, { X86_INS_VPANDND, "vpandnd" }, { X86_INS_VPANDNQ, "vpandnq" }, { X86_INS_VPANDN, "vpandn" }, { X86_INS_VPANDQ, "vpandq" }, { X86_INS_VPAND, "vpand" }, { X86_INS_VPAVGB, "vpavgb" }, { X86_INS_VPAVGW, "vpavgw" }, { X86_INS_VPBLENDD, "vpblendd" }, { X86_INS_VPBLENDMB, "vpblendmb" }, { X86_INS_VPBLENDMD, "vpblendmd" }, { X86_INS_VPBLENDMQ, "vpblendmq" }, { X86_INS_VPBLENDMW, "vpblendmw" }, { X86_INS_VPBLENDVB, "vpblendvb" }, { X86_INS_VPBLENDW, "vpblendw" }, { X86_INS_VPBROADCASTB, "vpbroadcastb" }, { X86_INS_VPBROADCASTD, "vpbroadcastd" }, { X86_INS_VPBROADCASTMB2Q, "vpbroadcastmb2q" }, { X86_INS_VPBROADCASTMW2D, "vpbroadcastmw2d" }, { X86_INS_VPBROADCASTQ, "vpbroadcastq" }, { X86_INS_VPBROADCASTW, "vpbroadcastw" }, { X86_INS_VPCLMULQDQ, "vpclmulqdq" }, { X86_INS_VPCMOV, "vpcmov" }, { X86_INS_VPCMPB, "vpcmpb" }, { X86_INS_VPCMPD, "vpcmpd" }, { X86_INS_VPCMPEQB, "vpcmpeqb" }, { X86_INS_VPCMPEQD, "vpcmpeqd" }, { X86_INS_VPCMPEQQ, "vpcmpeqq" }, { X86_INS_VPCMPEQW, "vpcmpeqw" }, { X86_INS_VPCMPESTRI, "vpcmpestri" }, { X86_INS_VPCMPESTRM, "vpcmpestrm" }, { X86_INS_VPCMPGTB, "vpcmpgtb" }, { X86_INS_VPCMPGTD, "vpcmpgtd" }, { X86_INS_VPCMPGTQ, "vpcmpgtq" }, { X86_INS_VPCMPGTW, "vpcmpgtw" }, { X86_INS_VPCMPISTRI, "vpcmpistri" }, { X86_INS_VPCMPISTRM, "vpcmpistrm" }, { X86_INS_VPCMPQ, "vpcmpq" }, { X86_INS_VPCMPUB, "vpcmpub" }, { X86_INS_VPCMPUD, "vpcmpud" }, { X86_INS_VPCMPUQ, "vpcmpuq" }, { X86_INS_VPCMPUW, "vpcmpuw" }, { X86_INS_VPCMPW, "vpcmpw" }, { X86_INS_VPCOMB, "vpcomb" }, { X86_INS_VPCOMD, "vpcomd" }, { X86_INS_VPCOMPRESSD, "vpcompressd" }, { X86_INS_VPCOMPRESSQ, "vpcompressq" }, { X86_INS_VPCOMQ, "vpcomq" }, { X86_INS_VPCOMUB, "vpcomub" }, { X86_INS_VPCOMUD, "vpcomud" }, { X86_INS_VPCOMUQ, "vpcomuq" }, { X86_INS_VPCOMUW, "vpcomuw" }, { X86_INS_VPCOMW, "vpcomw" }, { X86_INS_VPCONFLICTD, "vpconflictd" }, { X86_INS_VPCONFLICTQ, "vpconflictq" }, { X86_INS_VPERM2F128, "vperm2f128" }, { X86_INS_VPERM2I128, "vperm2i128" }, { X86_INS_VPERMD, "vpermd" }, { X86_INS_VPERMI2D, "vpermi2d" }, { X86_INS_VPERMI2PD, "vpermi2pd" }, { X86_INS_VPERMI2PS, "vpermi2ps" }, { X86_INS_VPERMI2Q, "vpermi2q" }, { X86_INS_VPERMIL2PD, "vpermil2pd" }, { X86_INS_VPERMIL2PS, "vpermil2ps" }, { X86_INS_VPERMILPD, "vpermilpd" }, { X86_INS_VPERMILPS, "vpermilps" }, { X86_INS_VPERMPD, "vpermpd" }, { X86_INS_VPERMPS, "vpermps" }, { X86_INS_VPERMQ, "vpermq" }, { X86_INS_VPERMT2D, "vpermt2d" }, { X86_INS_VPERMT2PD, "vpermt2pd" }, { X86_INS_VPERMT2PS, "vpermt2ps" }, { X86_INS_VPERMT2Q, "vpermt2q" }, { X86_INS_VPEXPANDD, "vpexpandd" }, { X86_INS_VPEXPANDQ, "vpexpandq" }, { X86_INS_VPEXTRB, "vpextrb" }, { X86_INS_VPEXTRD, "vpextrd" }, { X86_INS_VPEXTRQ, "vpextrq" }, { X86_INS_VPEXTRW, "vpextrw" }, { X86_INS_VPGATHERDD, "vpgatherdd" }, { X86_INS_VPGATHERDQ, "vpgatherdq" }, { X86_INS_VPGATHERQD, "vpgatherqd" }, { X86_INS_VPGATHERQQ, "vpgatherqq" }, { X86_INS_VPHADDBD, "vphaddbd" }, { X86_INS_VPHADDBQ, "vphaddbq" }, { X86_INS_VPHADDBW, "vphaddbw" }, { X86_INS_VPHADDDQ, "vphadddq" }, { X86_INS_VPHADDD, "vphaddd" }, { X86_INS_VPHADDSW, "vphaddsw" }, { X86_INS_VPHADDUBD, "vphaddubd" }, { X86_INS_VPHADDUBQ, "vphaddubq" }, { X86_INS_VPHADDUBW, "vphaddubw" }, { X86_INS_VPHADDUDQ, "vphaddudq" }, { X86_INS_VPHADDUWD, "vphadduwd" }, { X86_INS_VPHADDUWQ, "vphadduwq" }, { X86_INS_VPHADDWD, "vphaddwd" }, { X86_INS_VPHADDWQ, "vphaddwq" }, { X86_INS_VPHADDW, "vphaddw" }, { X86_INS_VPHMINPOSUW, "vphminposuw" }, { X86_INS_VPHSUBBW, "vphsubbw" }, { X86_INS_VPHSUBDQ, "vphsubdq" }, { X86_INS_VPHSUBD, "vphsubd" }, { X86_INS_VPHSUBSW, "vphsubsw" }, { X86_INS_VPHSUBWD, "vphsubwd" }, { X86_INS_VPHSUBW, "vphsubw" }, { X86_INS_VPINSRB, "vpinsrb" }, { X86_INS_VPINSRD, "vpinsrd" }, { X86_INS_VPINSRQ, "vpinsrq" }, { X86_INS_VPINSRW, "vpinsrw" }, { X86_INS_VPLZCNTD, "vplzcntd" }, { X86_INS_VPLZCNTQ, "vplzcntq" }, { X86_INS_VPMACSDD, "vpmacsdd" }, { X86_INS_VPMACSDQH, "vpmacsdqh" }, { X86_INS_VPMACSDQL, "vpmacsdql" }, { X86_INS_VPMACSSDD, "vpmacssdd" }, { X86_INS_VPMACSSDQH, "vpmacssdqh" }, { X86_INS_VPMACSSDQL, "vpmacssdql" }, { X86_INS_VPMACSSWD, "vpmacsswd" }, { X86_INS_VPMACSSWW, "vpmacssww" }, { X86_INS_VPMACSWD, "vpmacswd" }, { X86_INS_VPMACSWW, "vpmacsww" }, { X86_INS_VPMADCSSWD, "vpmadcsswd" }, { X86_INS_VPMADCSWD, "vpmadcswd" }, { X86_INS_VPMADDUBSW, "vpmaddubsw" }, { X86_INS_VPMADDWD, "vpmaddwd" }, { X86_INS_VPMASKMOVD, "vpmaskmovd" }, { X86_INS_VPMASKMOVQ, "vpmaskmovq" }, { X86_INS_VPMAXSB, "vpmaxsb" }, { X86_INS_VPMAXSD, "vpmaxsd" }, { X86_INS_VPMAXSQ, "vpmaxsq" }, { X86_INS_VPMAXSW, "vpmaxsw" }, { X86_INS_VPMAXUB, "vpmaxub" }, { X86_INS_VPMAXUD, "vpmaxud" }, { X86_INS_VPMAXUQ, "vpmaxuq" }, { X86_INS_VPMAXUW, "vpmaxuw" }, { X86_INS_VPMINSB, "vpminsb" }, { X86_INS_VPMINSD, "vpminsd" }, { X86_INS_VPMINSQ, "vpminsq" }, { X86_INS_VPMINSW, "vpminsw" }, { X86_INS_VPMINUB, "vpminub" }, { X86_INS_VPMINUD, "vpminud" }, { X86_INS_VPMINUQ, "vpminuq" }, { X86_INS_VPMINUW, "vpminuw" }, { X86_INS_VPMOVDB, "vpmovdb" }, { X86_INS_VPMOVDW, "vpmovdw" }, { X86_INS_VPMOVM2B, "vpmovm2b" }, { X86_INS_VPMOVM2D, "vpmovm2d" }, { X86_INS_VPMOVM2Q, "vpmovm2q" }, { X86_INS_VPMOVM2W, "vpmovm2w" }, { X86_INS_VPMOVMSKB, "vpmovmskb" }, { X86_INS_VPMOVQB, "vpmovqb" }, { X86_INS_VPMOVQD, "vpmovqd" }, { X86_INS_VPMOVQW, "vpmovqw" }, { X86_INS_VPMOVSDB, "vpmovsdb" }, { X86_INS_VPMOVSDW, "vpmovsdw" }, { X86_INS_VPMOVSQB, "vpmovsqb" }, { X86_INS_VPMOVSQD, "vpmovsqd" }, { X86_INS_VPMOVSQW, "vpmovsqw" }, { X86_INS_VPMOVSXBD, "vpmovsxbd" }, { X86_INS_VPMOVSXBQ, "vpmovsxbq" }, { X86_INS_VPMOVSXBW, "vpmovsxbw" }, { X86_INS_VPMOVSXDQ, "vpmovsxdq" }, { X86_INS_VPMOVSXWD, "vpmovsxwd" }, { X86_INS_VPMOVSXWQ, "vpmovsxwq" }, { X86_INS_VPMOVUSDB, "vpmovusdb" }, { X86_INS_VPMOVUSDW, "vpmovusdw" }, { X86_INS_VPMOVUSQB, "vpmovusqb" }, { X86_INS_VPMOVUSQD, "vpmovusqd" }, { X86_INS_VPMOVUSQW, "vpmovusqw" }, { X86_INS_VPMOVZXBD, "vpmovzxbd" }, { X86_INS_VPMOVZXBQ, "vpmovzxbq" }, { X86_INS_VPMOVZXBW, "vpmovzxbw" }, { X86_INS_VPMOVZXDQ, "vpmovzxdq" }, { X86_INS_VPMOVZXWD, "vpmovzxwd" }, { X86_INS_VPMOVZXWQ, "vpmovzxwq" }, { X86_INS_VPMULDQ, "vpmuldq" }, { X86_INS_VPMULHRSW, "vpmulhrsw" }, { X86_INS_VPMULHUW, "vpmulhuw" }, { X86_INS_VPMULHW, "vpmulhw" }, { X86_INS_VPMULLD, "vpmulld" }, { X86_INS_VPMULLQ, "vpmullq" }, { X86_INS_VPMULLW, "vpmullw" }, { X86_INS_VPMULUDQ, "vpmuludq" }, { X86_INS_VPORD, "vpord" }, { X86_INS_VPORQ, "vporq" }, { X86_INS_VPOR, "vpor" }, { X86_INS_VPPERM, "vpperm" }, { X86_INS_VPROTB, "vprotb" }, { X86_INS_VPROTD, "vprotd" }, { X86_INS_VPROTQ, "vprotq" }, { X86_INS_VPROTW, "vprotw" }, { X86_INS_VPSADBW, "vpsadbw" }, { X86_INS_VPSCATTERDD, "vpscatterdd" }, { X86_INS_VPSCATTERDQ, "vpscatterdq" }, { X86_INS_VPSCATTERQD, "vpscatterqd" }, { X86_INS_VPSCATTERQQ, "vpscatterqq" }, { X86_INS_VPSHAB, "vpshab" }, { X86_INS_VPSHAD, "vpshad" }, { X86_INS_VPSHAQ, "vpshaq" }, { X86_INS_VPSHAW, "vpshaw" }, { X86_INS_VPSHLB, "vpshlb" }, { X86_INS_VPSHLD, "vpshld" }, { X86_INS_VPSHLQ, "vpshlq" }, { X86_INS_VPSHLW, "vpshlw" }, { X86_INS_VPSHUFB, "vpshufb" }, { X86_INS_VPSHUFD, "vpshufd" }, { X86_INS_VPSHUFHW, "vpshufhw" }, { X86_INS_VPSHUFLW, "vpshuflw" }, { X86_INS_VPSIGNB, "vpsignb" }, { X86_INS_VPSIGND, "vpsignd" }, { X86_INS_VPSIGNW, "vpsignw" }, { X86_INS_VPSLLDQ, "vpslldq" }, { X86_INS_VPSLLD, "vpslld" }, { X86_INS_VPSLLQ, "vpsllq" }, { X86_INS_VPSLLVD, "vpsllvd" }, { X86_INS_VPSLLVQ, "vpsllvq" }, { X86_INS_VPSLLW, "vpsllw" }, { X86_INS_VPSRAD, "vpsrad" }, { X86_INS_VPSRAQ, "vpsraq" }, { X86_INS_VPSRAVD, "vpsravd" }, { X86_INS_VPSRAVQ, "vpsravq" }, { X86_INS_VPSRAW, "vpsraw" }, { X86_INS_VPSRLDQ, "vpsrldq" }, { X86_INS_VPSRLD, "vpsrld" }, { X86_INS_VPSRLQ, "vpsrlq" }, { X86_INS_VPSRLVD, "vpsrlvd" }, { X86_INS_VPSRLVQ, "vpsrlvq" }, { X86_INS_VPSRLW, "vpsrlw" }, { X86_INS_VPSUBB, "vpsubb" }, { X86_INS_VPSUBD, "vpsubd" }, { X86_INS_VPSUBQ, "vpsubq" }, { X86_INS_VPSUBSB, "vpsubsb" }, { X86_INS_VPSUBSW, "vpsubsw" }, { X86_INS_VPSUBUSB, "vpsubusb" }, { X86_INS_VPSUBUSW, "vpsubusw" }, { X86_INS_VPSUBW, "vpsubw" }, { X86_INS_VPTESTMD, "vptestmd" }, { X86_INS_VPTESTMQ, "vptestmq" }, { X86_INS_VPTESTNMD, "vptestnmd" }, { X86_INS_VPTESTNMQ, "vptestnmq" }, { X86_INS_VPTEST, "vptest" }, { X86_INS_VPUNPCKHBW, "vpunpckhbw" }, { X86_INS_VPUNPCKHDQ, "vpunpckhdq" }, { X86_INS_VPUNPCKHQDQ, "vpunpckhqdq" }, { X86_INS_VPUNPCKHWD, "vpunpckhwd" }, { X86_INS_VPUNPCKLBW, "vpunpcklbw" }, { X86_INS_VPUNPCKLDQ, "vpunpckldq" }, { X86_INS_VPUNPCKLQDQ, "vpunpcklqdq" }, { X86_INS_VPUNPCKLWD, "vpunpcklwd" }, { X86_INS_VPXORD, "vpxord" }, { X86_INS_VPXORQ, "vpxorq" }, { X86_INS_VPXOR, "vpxor" }, { X86_INS_VRCP14PD, "vrcp14pd" }, { X86_INS_VRCP14PS, "vrcp14ps" }, { X86_INS_VRCP14SD, "vrcp14sd" }, { X86_INS_VRCP14SS, "vrcp14ss" }, { X86_INS_VRCP28PD, "vrcp28pd" }, { X86_INS_VRCP28PS, "vrcp28ps" }, { X86_INS_VRCP28SD, "vrcp28sd" }, { X86_INS_VRCP28SS, "vrcp28ss" }, { X86_INS_VRCPPS, "vrcpps" }, { X86_INS_VRCPSS, "vrcpss" }, { X86_INS_VRNDSCALEPD, "vrndscalepd" }, { X86_INS_VRNDSCALEPS, "vrndscaleps" }, { X86_INS_VRNDSCALESD, "vrndscalesd" }, { X86_INS_VRNDSCALESS, "vrndscaless" }, { X86_INS_VROUNDPD, "vroundpd" }, { X86_INS_VROUNDPS, "vroundps" }, { X86_INS_VROUNDSD, "vroundsd" }, { X86_INS_VROUNDSS, "vroundss" }, { X86_INS_VRSQRT14PD, "vrsqrt14pd" }, { X86_INS_VRSQRT14PS, "vrsqrt14ps" }, { X86_INS_VRSQRT14SD, "vrsqrt14sd" }, { X86_INS_VRSQRT14SS, "vrsqrt14ss" }, { X86_INS_VRSQRT28PD, "vrsqrt28pd" }, { X86_INS_VRSQRT28PS, "vrsqrt28ps" }, { X86_INS_VRSQRT28SD, "vrsqrt28sd" }, { X86_INS_VRSQRT28SS, "vrsqrt28ss" }, { X86_INS_VRSQRTPS, "vrsqrtps" }, { X86_INS_VRSQRTSS, "vrsqrtss" }, { X86_INS_VSCATTERDPD, "vscatterdpd" }, { X86_INS_VSCATTERDPS, "vscatterdps" }, { X86_INS_VSCATTERPF0DPD, "vscatterpf0dpd" }, { X86_INS_VSCATTERPF0DPS, "vscatterpf0dps" }, { X86_INS_VSCATTERPF0QPD, "vscatterpf0qpd" }, { X86_INS_VSCATTERPF0QPS, "vscatterpf0qps" }, { X86_INS_VSCATTERPF1DPD, "vscatterpf1dpd" }, { X86_INS_VSCATTERPF1DPS, "vscatterpf1dps" }, { X86_INS_VSCATTERPF1QPD, "vscatterpf1qpd" }, { X86_INS_VSCATTERPF1QPS, "vscatterpf1qps" }, { X86_INS_VSCATTERQPD, "vscatterqpd" }, { X86_INS_VSCATTERQPS, "vscatterqps" }, { X86_INS_VSHUFPD, "vshufpd" }, { X86_INS_VSHUFPS, "vshufps" }, { X86_INS_VSQRTPD, "vsqrtpd" }, { X86_INS_VSQRTPS, "vsqrtps" }, { X86_INS_VSQRTSD, "vsqrtsd" }, { X86_INS_VSQRTSS, "vsqrtss" }, { X86_INS_VSTMXCSR, "vstmxcsr" }, { X86_INS_VSUBPD, "vsubpd" }, { X86_INS_VSUBPS, "vsubps" }, { X86_INS_VSUBSD, "vsubsd" }, { X86_INS_VSUBSS, "vsubss" }, { X86_INS_VTESTPD, "vtestpd" }, { X86_INS_VTESTPS, "vtestps" }, { X86_INS_VUNPCKHPD, "vunpckhpd" }, { X86_INS_VUNPCKHPS, "vunpckhps" }, { X86_INS_VUNPCKLPD, "vunpcklpd" }, { X86_INS_VUNPCKLPS, "vunpcklps" }, { X86_INS_VZEROALL, "vzeroall" }, { X86_INS_VZEROUPPER, "vzeroupper" }, { X86_INS_WAIT, "wait" }, { X86_INS_WBINVD, "wbinvd" }, { X86_INS_WRFSBASE, "wrfsbase" }, { X86_INS_WRGSBASE, "wrgsbase" }, { X86_INS_WRMSR, "wrmsr" }, { X86_INS_XABORT, "xabort" }, { X86_INS_XACQUIRE, "xacquire" }, { X86_INS_XBEGIN, "xbegin" }, { X86_INS_XCHG, "xchg" }, { X86_INS_XCRYPTCBC, "xcryptcbc" }, { X86_INS_XCRYPTCFB, "xcryptcfb" }, { X86_INS_XCRYPTCTR, "xcryptctr" }, { X86_INS_XCRYPTECB, "xcryptecb" }, { X86_INS_XCRYPTOFB, "xcryptofb" }, { X86_INS_XEND, "xend" }, { X86_INS_XGETBV, "xgetbv" }, { X86_INS_XLATB, "xlatb" }, { X86_INS_XRELEASE, "xrelease" }, { X86_INS_XRSTOR, "xrstor" }, { X86_INS_XRSTOR64, "xrstor64" }, { X86_INS_XRSTORS, "xrstors" }, { X86_INS_XRSTORS64, "xrstors64" }, { X86_INS_XSAVE, "xsave" }, { X86_INS_XSAVE64, "xsave64" }, { X86_INS_XSAVEC, "xsavec" }, { X86_INS_XSAVEC64, "xsavec64" }, { X86_INS_XSAVEOPT, "xsaveopt" }, { X86_INS_XSAVEOPT64, "xsaveopt64" }, { X86_INS_XSAVES, "xsaves" }, { X86_INS_XSAVES64, "xsaves64" }, { X86_INS_XSETBV, "xsetbv" }, { X86_INS_XSHA1, "xsha1" }, { X86_INS_XSHA256, "xsha256" }, { X86_INS_XSTORE, "xstore" }, { X86_INS_XTEST, "xtest" }, { X86_INS_FDISI8087_NOP, "fdisi8087_nop" }, { X86_INS_FENI8087_NOP, "feni8087_nop" }, // pseudo instructions { X86_INS_CMPSS, "cmpss" }, { X86_INS_CMPEQSS, "cmpeqss" }, { X86_INS_CMPLTSS, "cmpltss" }, { X86_INS_CMPLESS, "cmpless" }, { X86_INS_CMPUNORDSS, "cmpunordss" }, { X86_INS_CMPNEQSS, "cmpneqss" }, { X86_INS_CMPNLTSS, "cmpnltss" }, { X86_INS_CMPNLESS, "cmpnless" }, { X86_INS_CMPORDSS, "cmpordss" }, { X86_INS_CMPSD, "cmpsd" }, { X86_INS_CMPEQSD, "cmpeqsd" }, { X86_INS_CMPLTSD, "cmpltsd" }, { X86_INS_CMPLESD, "cmplesd" }, { X86_INS_CMPUNORDSD, "cmpunordsd" }, { X86_INS_CMPNEQSD, "cmpneqsd" }, { X86_INS_CMPNLTSD, "cmpnltsd" }, { X86_INS_CMPNLESD, "cmpnlesd" }, { X86_INS_CMPORDSD, "cmpordsd" }, { X86_INS_CMPPS, "cmpps" }, { X86_INS_CMPEQPS, "cmpeqps" }, { X86_INS_CMPLTPS, "cmpltps" }, { X86_INS_CMPLEPS, "cmpleps" }, { X86_INS_CMPUNORDPS, "cmpunordps" }, { X86_INS_CMPNEQPS, "cmpneqps" }, { X86_INS_CMPNLTPS, "cmpnltps" }, { X86_INS_CMPNLEPS, "cmpnleps" }, { X86_INS_CMPORDPS, "cmpordps" }, { X86_INS_CMPPD, "cmppd" }, { X86_INS_CMPEQPD, "cmpeqpd" }, { X86_INS_CMPLTPD, "cmpltpd" }, { X86_INS_CMPLEPD, "cmplepd" }, { X86_INS_CMPUNORDPD, "cmpunordpd" }, { X86_INS_CMPNEQPD, "cmpneqpd" }, { X86_INS_CMPNLTPD, "cmpnltpd" }, { X86_INS_CMPNLEPD, "cmpnlepd" }, { X86_INS_CMPORDPD, "cmpordpd" }, { X86_INS_VCMPSS, "vcmpss" }, { X86_INS_VCMPEQSS, "vcmpeqss" }, { X86_INS_VCMPLTSS, "vcmpltss" }, { X86_INS_VCMPLESS, "vcmpless" }, { X86_INS_VCMPUNORDSS, "vcmpunordss" }, { X86_INS_VCMPNEQSS, "vcmpneqss" }, { X86_INS_VCMPNLTSS, "vcmpnltss" }, { X86_INS_VCMPNLESS, "vcmpnless" }, { X86_INS_VCMPORDSS, "vcmpordss" }, { X86_INS_VCMPEQ_UQSS, "vcmpeq_uqss" }, { X86_INS_VCMPNGESS, "vcmpngess" }, { X86_INS_VCMPNGTSS, "vcmpngtss" }, { X86_INS_VCMPFALSESS, "vcmpfalsess" }, { X86_INS_VCMPNEQ_OQSS, "vcmpneq_oqss" }, { X86_INS_VCMPGESS, "vcmpgess" }, { X86_INS_VCMPGTSS, "vcmpgtss" }, { X86_INS_VCMPTRUESS, "vcmptruess" }, { X86_INS_VCMPEQ_OSSS, "vcmpeq_osss" }, { X86_INS_VCMPLT_OQSS, "vcmplt_oqss" }, { X86_INS_VCMPLE_OQSS, "vcmple_oqss" }, { X86_INS_VCMPUNORD_SSS, "vcmpunord_sss" }, { X86_INS_VCMPNEQ_USSS, "vcmpneq_usss" }, { X86_INS_VCMPNLT_UQSS, "vcmpnlt_uqss" }, { X86_INS_VCMPNLE_UQSS, "vcmpnle_uqss" }, { X86_INS_VCMPORD_SSS, "vcmpord_sss" }, { X86_INS_VCMPEQ_USSS, "vcmpeq_usss" }, { X86_INS_VCMPNGE_UQSS, "vcmpnge_uqss" }, { X86_INS_VCMPNGT_UQSS, "vcmpngt_uqss" }, { X86_INS_VCMPFALSE_OSSS, "vcmpfalse_osss" }, { X86_INS_VCMPNEQ_OSSS, "vcmpneq_osss" }, { X86_INS_VCMPGE_OQSS, "vcmpge_oqss" }, { X86_INS_VCMPGT_OQSS, "vcmpgt_oqss" }, { X86_INS_VCMPTRUE_USSS, "vcmptrue_usss" }, { X86_INS_VCMPSD, "vcmpsd" }, { X86_INS_VCMPEQSD, "vcmpeqsd" }, { X86_INS_VCMPLTSD, "vcmpltsd" }, { X86_INS_VCMPLESD, "vcmplesd" }, { X86_INS_VCMPUNORDSD, "vcmpunordsd" }, { X86_INS_VCMPNEQSD, "vcmpneqsd" }, { X86_INS_VCMPNLTSD, "vcmpnltsd" }, { X86_INS_VCMPNLESD, "vcmpnlesd" }, { X86_INS_VCMPORDSD, "vcmpordsd" }, { X86_INS_VCMPEQ_UQSD, "vcmpeq_uqsd" }, { X86_INS_VCMPNGESD, "vcmpngesd" }, { X86_INS_VCMPNGTSD, "vcmpngtsd" }, { X86_INS_VCMPFALSESD, "vcmpfalsesd" }, { X86_INS_VCMPNEQ_OQSD, "vcmpneq_oqsd" }, { X86_INS_VCMPGESD, "vcmpgesd" }, { X86_INS_VCMPGTSD, "vcmpgtsd" }, { X86_INS_VCMPTRUESD, "vcmptruesd" }, { X86_INS_VCMPEQ_OSSD, "vcmpeq_ossd" }, { X86_INS_VCMPLT_OQSD, "vcmplt_oqsd" }, { X86_INS_VCMPLE_OQSD, "vcmple_oqsd" }, { X86_INS_VCMPUNORD_SSD, "vcmpunord_ssd" }, { X86_INS_VCMPNEQ_USSD, "vcmpneq_ussd" }, { X86_INS_VCMPNLT_UQSD, "vcmpnlt_uqsd" }, { X86_INS_VCMPNLE_UQSD, "vcmpnle_uqsd" }, { X86_INS_VCMPORD_SSD, "vcmpord_ssd" }, { X86_INS_VCMPEQ_USSD, "vcmpeq_ussd" }, { X86_INS_VCMPNGE_UQSD, "vcmpnge_uqsd" }, { X86_INS_VCMPNGT_UQSD, "vcmpngt_uqsd" }, { X86_INS_VCMPFALSE_OSSD, "vcmpfalse_ossd" }, { X86_INS_VCMPNEQ_OSSD, "vcmpneq_ossd" }, { X86_INS_VCMPGE_OQSD, "vcmpge_oqsd" }, { X86_INS_VCMPGT_OQSD, "vcmpgt_oqsd" }, { X86_INS_VCMPTRUE_USSD, "vcmptrue_ussd" }, { X86_INS_VCMPPS, "vcmpps" }, { X86_INS_VCMPEQPS, "vcmpeqps" }, { X86_INS_VCMPLTPS, "vcmpltps" }, { X86_INS_VCMPLEPS, "vcmpleps" }, { X86_INS_VCMPUNORDPS, "vcmpunordps" }, { X86_INS_VCMPNEQPS, "vcmpneqps" }, { X86_INS_VCMPNLTPS, "vcmpnltps" }, { X86_INS_VCMPNLEPS, "vcmpnleps" }, { X86_INS_VCMPORDPS, "vcmpordps" }, { X86_INS_VCMPEQ_UQPS, "vcmpeq_uqps" }, { X86_INS_VCMPNGEPS, "vcmpngeps" }, { X86_INS_VCMPNGTPS, "vcmpngtps" }, { X86_INS_VCMPFALSEPS, "vcmpfalseps" }, { X86_INS_VCMPNEQ_OQPS, "vcmpneq_oqps" }, { X86_INS_VCMPGEPS, "vcmpgeps" }, { X86_INS_VCMPGTPS, "vcmpgtps" }, { X86_INS_VCMPTRUEPS, "vcmptrueps" }, { X86_INS_VCMPEQ_OSPS, "vcmpeq_osps" }, { X86_INS_VCMPLT_OQPS, "vcmplt_oqps" }, { X86_INS_VCMPLE_OQPS, "vcmple_oqps" }, { X86_INS_VCMPUNORD_SPS, "vcmpunord_sps" }, { X86_INS_VCMPNEQ_USPS, "vcmpneq_usps" }, { X86_INS_VCMPNLT_UQPS, "vcmpnlt_uqps" }, { X86_INS_VCMPNLE_UQPS, "vcmpnle_uqps" }, { X86_INS_VCMPORD_SPS, "vcmpord_sps" }, { X86_INS_VCMPEQ_USPS, "vcmpeq_usps" }, { X86_INS_VCMPNGE_UQPS, "vcmpnge_uqps" }, { X86_INS_VCMPNGT_UQPS, "vcmpngt_uqps" }, { X86_INS_VCMPFALSE_OSPS, "vcmpfalse_osps" }, { X86_INS_VCMPNEQ_OSPS, "vcmpneq_osps" }, { X86_INS_VCMPGE_OQPS, "vcmpge_oqps" }, { X86_INS_VCMPGT_OQPS, "vcmpgt_oqps" }, { X86_INS_VCMPTRUE_USPS, "vcmptrue_usps" }, { X86_INS_VCMPPD, "vcmppd" }, { X86_INS_VCMPEQPD, "vcmpeqpd" }, { X86_INS_VCMPLTPD, "vcmpltpd" }, { X86_INS_VCMPLEPD, "vcmplepd" }, { X86_INS_VCMPUNORDPD, "vcmpunordpd" }, { X86_INS_VCMPNEQPD, "vcmpneqpd" }, { X86_INS_VCMPNLTPD, "vcmpnltpd" }, { X86_INS_VCMPNLEPD, "vcmpnlepd" }, { X86_INS_VCMPORDPD, "vcmpordpd" }, { X86_INS_VCMPEQ_UQPD, "vcmpeq_uqpd" }, { X86_INS_VCMPNGEPD, "vcmpngepd" }, { X86_INS_VCMPNGTPD, "vcmpngtpd" }, { X86_INS_VCMPFALSEPD, "vcmpfalsepd" }, { X86_INS_VCMPNEQ_OQPD, "vcmpneq_oqpd" }, { X86_INS_VCMPGEPD, "vcmpgepd" }, { X86_INS_VCMPGTPD, "vcmpgtpd" }, { X86_INS_VCMPTRUEPD, "vcmptruepd" }, { X86_INS_VCMPEQ_OSPD, "vcmpeq_ospd" }, { X86_INS_VCMPLT_OQPD, "vcmplt_oqpd" }, { X86_INS_VCMPLE_OQPD, "vcmple_oqpd" }, { X86_INS_VCMPUNORD_SPD, "vcmpunord_spd" }, { X86_INS_VCMPNEQ_USPD, "vcmpneq_uspd" }, { X86_INS_VCMPNLT_UQPD, "vcmpnlt_uqpd" }, { X86_INS_VCMPNLE_UQPD, "vcmpnle_uqpd" }, { X86_INS_VCMPORD_SPD, "vcmpord_spd" }, { X86_INS_VCMPEQ_USPD, "vcmpeq_uspd" }, { X86_INS_VCMPNGE_UQPD, "vcmpnge_uqpd" }, { X86_INS_VCMPNGT_UQPD, "vcmpngt_uqpd" }, { X86_INS_VCMPFALSE_OSPD, "vcmpfalse_ospd" }, { X86_INS_VCMPNEQ_OSPD, "vcmpneq_ospd" }, { X86_INS_VCMPGE_OQPD, "vcmpge_oqpd" }, { X86_INS_VCMPGT_OQPD, "vcmpgt_oqpd" }, { X86_INS_VCMPTRUE_USPD, "vcmptrue_uspd" }, { X86_INS_UD0, "ud0" }, { X86_INS_ENDBR32, "endbr32" }, { X86_INS_ENDBR64, "endbr64" }, }; #endif const char *X86_insn_name(csh handle, unsigned int id) { #ifndef CAPSTONE_DIET if (id >= X86_INS_ENDING) return NULL; return insn_name_maps[id].name; #else return NULL; #endif } #ifndef CAPSTONE_DIET static const name_map group_name_maps[] = { // generic groups { X86_GRP_INVALID, NULL }, { X86_GRP_JUMP, "jump" }, { X86_GRP_CALL, "call" }, { X86_GRP_RET, "ret" }, { X86_GRP_INT, "int" }, { X86_GRP_IRET, "iret" }, { X86_GRP_PRIVILEGE, "privilege" }, { X86_GRP_BRANCH_RELATIVE, "branch_relative" }, // architecture-specific groups { X86_GRP_VM, "vm" }, { X86_GRP_3DNOW, "3dnow" }, { X86_GRP_AES, "aes" }, { X86_GRP_ADX, "adx" }, { X86_GRP_AVX, "avx" }, { X86_GRP_AVX2, "avx2" }, { X86_GRP_AVX512, "avx512" }, { X86_GRP_BMI, "bmi" }, { X86_GRP_BMI2, "bmi2" }, { X86_GRP_CMOV, "cmov" }, { X86_GRP_F16C, "fc16" }, { X86_GRP_FMA, "fma" }, { X86_GRP_FMA4, "fma4" }, { X86_GRP_FSGSBASE, "fsgsbase" }, { X86_GRP_HLE, "hle" }, { X86_GRP_MMX, "mmx" }, { X86_GRP_MODE32, "mode32" }, { X86_GRP_MODE64, "mode64" }, { X86_GRP_RTM, "rtm" }, { X86_GRP_SHA, "sha" }, { X86_GRP_SSE1, "sse1" }, { X86_GRP_SSE2, "sse2" }, { X86_GRP_SSE3, "sse3" }, { X86_GRP_SSE41, "sse41" }, { X86_GRP_SSE42, "sse42" }, { X86_GRP_SSE4A, "sse4a" }, { X86_GRP_SSSE3, "ssse3" }, { X86_GRP_PCLMUL, "pclmul" }, { X86_GRP_XOP, "xop" }, { X86_GRP_CDI, "cdi" }, { X86_GRP_ERI, "eri" }, { X86_GRP_TBM, "tbm" }, { X86_GRP_16BITMODE, "16bitmode" }, { X86_GRP_NOT64BITMODE, "not64bitmode" }, { X86_GRP_SGX, "sgx" }, { X86_GRP_DQI, "dqi" }, { X86_GRP_BWI, "bwi" }, { X86_GRP_PFI, "pfi" }, { X86_GRP_VLX, "vlx" }, { X86_GRP_SMAP, "smap" }, { X86_GRP_NOVLX, "novlx" }, { X86_GRP_FPU, "fpu" }, }; #endif const char *X86_group_name(csh handle, unsigned int id) { #ifndef CAPSTONE_DIET return id2name(group_name_maps, ARR_SIZE(group_name_maps), id); #else return NULL; #endif } #define GET_INSTRINFO_ENUM #ifdef CAPSTONE_X86_REDUCE #include "X86GenInstrInfo_reduce.inc" #else #include "X86GenInstrInfo.inc" #endif #ifndef CAPSTONE_X86_REDUCE static const insn_map insns[] = { // full x86 instructions // dummy item { 0, 0, #ifndef CAPSTONE_DIET { 0 }, { 0 }, { 0 }, 0, 0 #endif }, #include "X86MappingInsn.inc" }; #else // X86 reduce (defined CAPSTONE_X86_REDUCE) static insn_map insns[] = { // reduce x86 instructions // dummy item { 0, 0, #ifndef CAPSTONE_DIET { 0 }, { 0 }, { 0 }, 0, 0 #endif }, #include "X86MappingInsn_reduce.inc" }; #endif #ifndef CAPSTONE_DIET // replace r1 = r2 static void arr_replace(uint16_t *arr, uint8_t max, x86_reg r1, x86_reg r2) { uint8_t i; for(i = 0; i < max; i++) { if (arr[i] == r1) { arr[i] = r2; break; } } } #endif // given internal insn id, return public instruction info void X86_get_insn_id(cs_struct *h, cs_insn *insn, unsigned int id) { int i = insn_find(insns, ARR_SIZE(insns), id, &h->insn_cache); if (i != 0) { insn->id = insns[i].mapid; if (h->detail) { #ifndef CAPSTONE_DIET memcpy(insn->detail->regs_read, insns[i].regs_use, sizeof(insns[i].regs_use)); insn->detail->regs_read_count = (uint8_t)count_positive(insns[i].regs_use); // special cases when regs_write[] depends on arch switch(id) { default: memcpy(insn->detail->regs_write, insns[i].regs_mod, sizeof(insns[i].regs_mod)); insn->detail->regs_write_count = (uint8_t)count_positive(insns[i].regs_mod); break; case X86_RDTSC: if (h->mode == CS_MODE_64) { memcpy(insn->detail->regs_write, insns[i].regs_mod, sizeof(insns[i].regs_mod)); insn->detail->regs_write_count = (uint8_t)count_positive(insns[i].regs_mod); } else { insn->detail->regs_write[0] = X86_REG_EAX; insn->detail->regs_write[1] = X86_REG_EDX; insn->detail->regs_write_count = 2; } break; case X86_RDTSCP: if (h->mode == CS_MODE_64) { memcpy(insn->detail->regs_write, insns[i].regs_mod, sizeof(insns[i].regs_mod)); insn->detail->regs_write_count = (uint8_t)count_positive(insns[i].regs_mod); } else { insn->detail->regs_write[0] = X86_REG_EAX; insn->detail->regs_write[1] = X86_REG_ECX; insn->detail->regs_write[2] = X86_REG_EDX; insn->detail->regs_write_count = 3; } break; } switch(insn->id) { default: break; case X86_INS_LOOP: case X86_INS_LOOPE: case X86_INS_LOOPNE: switch(h->mode) { default: break; case CS_MODE_16: insn->detail->regs_read[0] = X86_REG_CX; insn->detail->regs_read_count = 1; insn->detail->regs_write[0] = X86_REG_CX; insn->detail->regs_write_count = 1; break; case CS_MODE_32: insn->detail->regs_read[0] = X86_REG_ECX; insn->detail->regs_read_count = 1; insn->detail->regs_write[0] = X86_REG_ECX; insn->detail->regs_write_count = 1; break; case CS_MODE_64: insn->detail->regs_read[0] = X86_REG_RCX; insn->detail->regs_read_count = 1; insn->detail->regs_write[0] = X86_REG_RCX; insn->detail->regs_write_count = 1; break; } // LOOPE & LOOPNE also read EFLAGS if (insn->id != X86_INS_LOOP) { insn->detail->regs_read[1] = X86_REG_EFLAGS; insn->detail->regs_read_count = 2; } break; case X86_INS_LODSB: case X86_INS_LODSD: case X86_INS_LODSQ: case X86_INS_LODSW: switch(h->mode) { default: break; case CS_MODE_16: arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_ESI, X86_REG_SI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_ESI, X86_REG_SI); break; case CS_MODE_64: arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_ESI, X86_REG_RSI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_ESI, X86_REG_RSI); break; } break; case X86_INS_SCASB: case X86_INS_SCASW: case X86_INS_SCASQ: case X86_INS_STOSB: case X86_INS_STOSD: case X86_INS_STOSQ: case X86_INS_STOSW: switch(h->mode) { default: break; case CS_MODE_16: arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_EDI, X86_REG_DI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_EDI, X86_REG_DI); break; case CS_MODE_64: arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_EDI, X86_REG_RDI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_EDI, X86_REG_RDI); break; } break; case X86_INS_CMPSB: case X86_INS_CMPSD: case X86_INS_CMPSQ: case X86_INS_CMPSW: case X86_INS_MOVSB: case X86_INS_MOVSW: case X86_INS_MOVSD: case X86_INS_MOVSQ: switch(h->mode) { default: break; case CS_MODE_16: arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_EDI, X86_REG_DI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_EDI, X86_REG_DI); arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_ESI, X86_REG_SI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_ESI, X86_REG_SI); break; case CS_MODE_64: arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_EDI, X86_REG_RDI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_EDI, X86_REG_RDI); arr_replace(insn->detail->regs_read, insn->detail->regs_read_count, X86_REG_ESI, X86_REG_RSI); arr_replace(insn->detail->regs_write, insn->detail->regs_write_count, X86_REG_ESI, X86_REG_RSI); break; } break; case X86_INS_RET: switch(h->mode) { case CS_MODE_16: insn->detail->regs_write[0] = X86_REG_SP; insn->detail->regs_read[0] = X86_REG_SP; break; case CS_MODE_32: insn->detail->regs_write[0] = X86_REG_ESP; insn->detail->regs_read[0] = X86_REG_ESP; break; default: // 64-bit insn->detail->regs_write[0] = X86_REG_RSP; insn->detail->regs_read[0] = X86_REG_RSP; break; } insn->detail->regs_write_count = 1; insn->detail->regs_read_count = 1; break; } memcpy(insn->detail->groups, insns[i].groups, sizeof(insns[i].groups)); insn->detail->groups_count = (uint8_t)count_positive8(insns[i].groups); if (insns[i].branch || insns[i].indirect_branch) { // this insn also belongs to JUMP group. add JUMP group insn->detail->groups[insn->detail->groups_count] = X86_GRP_JUMP; insn->detail->groups_count++; } switch (insns[i].id) { case X86_OUT8ir: case X86_OUT16ir: case X86_OUT32ir: if (insn->detail->x86.operands[0].imm == -78) { // Writing to port 0xb2 causes an SMI on most platforms // See: http://cs.gmu.edu/~tr-admin/papers/GMU-CS-TR-2011-8.pdf insn->detail->groups[insn->detail->groups_count] = X86_GRP_INT; insn->detail->groups_count++; } break; default: break; } #endif } } } // map special instructions with accumulate registers. // this is needed because LLVM embeds these register names into AsmStrs[], // but not separately in operands struct insn_reg { uint16_t insn; x86_reg reg; enum cs_ac_type access; }; struct insn_reg2 { uint16_t insn; x86_reg reg1, reg2; enum cs_ac_type access1, access2; }; static struct insn_reg insn_regs_att[] = { { X86_INSB, X86_REG_DX }, { X86_INSW, X86_REG_DX }, { X86_INSL, X86_REG_DX }, { X86_MOV8o16a, X86_REG_AL }, { X86_MOV8o32a, X86_REG_AL }, { X86_MOV8o64a, X86_REG_AL }, { X86_MOV16o16a, X86_REG_AX }, { X86_MOV16o32a, X86_REG_AX }, { X86_MOV16o64a, X86_REG_AX }, { X86_MOV32o16a, X86_REG_EAX }, { X86_MOV32o32a, X86_REG_EAX }, { X86_MOV32o64a, X86_REG_EAX }, { X86_MOV64o32a, X86_REG_RAX }, { X86_MOV64o64a, X86_REG_RAX }, { X86_PUSHCS32, X86_REG_CS }, { X86_PUSHDS32, X86_REG_DS }, { X86_PUSHES32, X86_REG_ES }, { X86_PUSHFS32, X86_REG_FS }, { X86_PUSHGS32, X86_REG_GS }, { X86_PUSHSS32, X86_REG_SS }, { X86_PUSHFS64, X86_REG_FS }, { X86_PUSHGS64, X86_REG_GS }, { X86_PUSHCS16, X86_REG_CS }, { X86_PUSHDS16, X86_REG_DS }, { X86_PUSHES16, X86_REG_ES }, { X86_PUSHFS16, X86_REG_FS }, { X86_PUSHGS16, X86_REG_GS }, { X86_PUSHSS16, X86_REG_SS }, { X86_POPDS32, X86_REG_DS }, { X86_POPES32, X86_REG_ES }, { X86_POPFS32, X86_REG_FS }, { X86_POPGS32, X86_REG_GS }, { X86_POPSS32, X86_REG_SS }, { X86_POPFS64, X86_REG_FS }, { X86_POPGS64, X86_REG_GS }, { X86_POPDS16, X86_REG_DS }, { X86_POPES16, X86_REG_ES }, { X86_POPFS16, X86_REG_FS }, { X86_POPGS16, X86_REG_GS }, { X86_POPSS16, X86_REG_SS }, { X86_RCL32rCL, X86_REG_CL }, { X86_SHL8rCL, X86_REG_CL }, { X86_SHL16rCL, X86_REG_CL }, { X86_SHL32rCL, X86_REG_CL }, { X86_SHL64rCL, X86_REG_CL }, { X86_SAL8rCL, X86_REG_CL }, { X86_SAL16rCL, X86_REG_CL }, { X86_SAL32rCL, X86_REG_CL }, { X86_SAL64rCL, X86_REG_CL }, { X86_SHR8rCL, X86_REG_CL }, { X86_SHR16rCL, X86_REG_CL }, { X86_SHR32rCL, X86_REG_CL }, { X86_SHR64rCL, X86_REG_CL }, { X86_SAR8rCL, X86_REG_CL }, { X86_SAR16rCL, X86_REG_CL }, { X86_SAR32rCL, X86_REG_CL }, { X86_SAR64rCL, X86_REG_CL }, { X86_RCL8rCL, X86_REG_CL }, { X86_RCL16rCL, X86_REG_CL }, { X86_RCL32rCL, X86_REG_CL }, { X86_RCL64rCL, X86_REG_CL }, { X86_RCR8rCL, X86_REG_CL }, { X86_RCR16rCL, X86_REG_CL }, { X86_RCR32rCL, X86_REG_CL }, { X86_RCR64rCL, X86_REG_CL }, { X86_ROL8rCL, X86_REG_CL }, { X86_ROL16rCL, X86_REG_CL }, { X86_ROL32rCL, X86_REG_CL }, { X86_ROL64rCL, X86_REG_CL }, { X86_ROR8rCL, X86_REG_CL }, { X86_ROR16rCL, X86_REG_CL }, { X86_ROR32rCL, X86_REG_CL }, { X86_ROR64rCL, X86_REG_CL }, { X86_SHLD16rrCL, X86_REG_CL }, { X86_SHRD16rrCL, X86_REG_CL }, { X86_SHLD32rrCL, X86_REG_CL }, { X86_SHRD32rrCL, X86_REG_CL }, { X86_SHLD64rrCL, X86_REG_CL }, { X86_SHRD64rrCL, X86_REG_CL }, { X86_SHLD16mrCL, X86_REG_CL }, { X86_SHRD16mrCL, X86_REG_CL }, { X86_SHLD32mrCL, X86_REG_CL }, { X86_SHRD32mrCL, X86_REG_CL }, { X86_SHLD64mrCL, X86_REG_CL }, { X86_SHRD64mrCL, X86_REG_CL }, { X86_OUT8ir, X86_REG_AL }, { X86_OUT16ir, X86_REG_AX }, { X86_OUT32ir, X86_REG_EAX }, #ifndef CAPSTONE_X86_REDUCE { X86_SKINIT, X86_REG_EAX }, { X86_VMRUN32, X86_REG_EAX }, { X86_VMRUN64, X86_REG_RAX }, { X86_VMLOAD32, X86_REG_EAX }, { X86_VMLOAD64, X86_REG_RAX }, { X86_VMSAVE32, X86_REG_EAX }, { X86_VMSAVE64, X86_REG_RAX }, { X86_FNSTSW16r, X86_REG_AX }, { X86_ADD_FrST0, X86_REG_ST0 }, { X86_SUB_FrST0, X86_REG_ST0 }, { X86_SUBR_FrST0, X86_REG_ST0 }, { X86_MUL_FrST0, X86_REG_ST0 }, { X86_DIV_FrST0, X86_REG_ST0 }, { X86_DIVR_FrST0, X86_REG_ST0 }, #endif }; static struct insn_reg insn_regs_intel[] = { { X86_OUTSB, X86_REG_DX, CS_AC_WRITE }, { X86_OUTSW, X86_REG_DX, CS_AC_WRITE }, { X86_OUTSL, X86_REG_DX, CS_AC_WRITE }, { X86_MOV8ao16, X86_REG_AL, CS_AC_WRITE }, // 16-bit A0 1020 // mov al, byte ptr [0x2010] { X86_MOV8ao32, X86_REG_AL, CS_AC_WRITE }, // 32-bit A0 10203040 // mov al, byte ptr [0x40302010] { X86_MOV8ao64, X86_REG_AL, CS_AC_WRITE }, // 64-bit 66 A0 1020304050607080 // movabs al, byte ptr [0x8070605040302010] { X86_MOV16ao16, X86_REG_AX, CS_AC_WRITE }, // 16-bit A1 1020 // mov ax, word ptr [0x2010] { X86_MOV16ao32, X86_REG_AX, CS_AC_WRITE }, // 32-bit A1 10203040 // mov ax, word ptr [0x40302010] { X86_MOV16ao64, X86_REG_AX, CS_AC_WRITE }, // 64-bit 66 A1 1020304050607080 // movabs ax, word ptr [0x8070605040302010] { X86_MOV32ao16, X86_REG_EAX, CS_AC_WRITE }, // 32-bit 67 A1 1020 // mov eax, dword ptr [0x2010] { X86_MOV32ao32, X86_REG_EAX, CS_AC_WRITE }, // 32-bit A1 10203040 // mov eax, dword ptr [0x40302010] { X86_MOV32ao64, X86_REG_EAX, CS_AC_WRITE }, // 64-bit A1 1020304050607080 // movabs eax, dword ptr [0x8070605040302010] { X86_MOV64ao32, X86_REG_RAX, CS_AC_WRITE }, // 64-bit 48 8B04 10203040 // mov rax, qword ptr [0x40302010] { X86_MOV64ao64, X86_REG_RAX, CS_AC_WRITE }, // 64-bit 48 A1 1020304050607080 // movabs rax, qword ptr [0x8070605040302010] { X86_LODSQ, X86_REG_RAX, CS_AC_WRITE }, { X86_OR32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_SUB32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_TEST32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_ADD32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_XCHG64ar, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_LODSB, X86_REG_AL, CS_AC_WRITE }, { X86_AND32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_IN16ri, X86_REG_AX, CS_AC_WRITE }, { X86_CMP64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_XOR32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_XCHG16ar, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_LODSW, X86_REG_AX, CS_AC_WRITE }, { X86_AND16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_ADC16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_XCHG32ar64, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_ADC8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_CMP32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_AND8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_SCASW, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_XOR8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_SUB16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_OR16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_XCHG32ar, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_SBB8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_SCASQ, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_SBB32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_XOR64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_SUB64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_ADD64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_OR8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_TEST64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_SBB16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_TEST8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_IN8ri, X86_REG_AL, CS_AC_WRITE }, { X86_TEST16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_SCASL, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_SUB8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_ADD8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_OR64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_SCASB, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_SBB64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_ADD16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_XOR16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_AND64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_LODSL, X86_REG_EAX, CS_AC_WRITE }, { X86_CMP8i8, X86_REG_AL, CS_AC_WRITE | CS_AC_READ }, { X86_ADC64i32, X86_REG_RAX, CS_AC_WRITE | CS_AC_READ }, { X86_CMP16i16, X86_REG_AX, CS_AC_WRITE | CS_AC_READ }, { X86_ADC32i32, X86_REG_EAX, CS_AC_WRITE | CS_AC_READ }, { X86_IN32ri, X86_REG_EAX, CS_AC_WRITE }, { X86_PUSHCS32, X86_REG_CS, CS_AC_READ }, { X86_PUSHDS32, X86_REG_DS, CS_AC_READ }, { X86_PUSHES32, X86_REG_ES, CS_AC_READ }, { X86_PUSHFS32, X86_REG_FS, CS_AC_READ }, { X86_PUSHGS32, X86_REG_GS, CS_AC_READ }, { X86_PUSHSS32, X86_REG_SS, CS_AC_READ }, { X86_PUSHFS64, X86_REG_FS, CS_AC_READ }, { X86_PUSHGS64, X86_REG_GS, CS_AC_READ }, { X86_PUSHCS16, X86_REG_CS, CS_AC_READ }, { X86_PUSHDS16, X86_REG_DS, CS_AC_READ }, { X86_PUSHES16, X86_REG_ES, CS_AC_READ }, { X86_PUSHFS16, X86_REG_FS, CS_AC_READ }, { X86_PUSHGS16, X86_REG_GS, CS_AC_READ }, { X86_PUSHSS16, X86_REG_SS, CS_AC_READ }, { X86_POPDS32, X86_REG_DS, CS_AC_WRITE }, { X86_POPES32, X86_REG_ES, CS_AC_WRITE }, { X86_POPFS32, X86_REG_FS, CS_AC_WRITE }, { X86_POPGS32, X86_REG_GS, CS_AC_WRITE }, { X86_POPSS32, X86_REG_SS, CS_AC_WRITE }, { X86_POPFS64, X86_REG_FS, CS_AC_WRITE }, { X86_POPGS64, X86_REG_GS, CS_AC_WRITE }, { X86_POPDS16, X86_REG_DS, CS_AC_WRITE }, { X86_POPES16, X86_REG_ES, CS_AC_WRITE }, { X86_POPFS16, X86_REG_FS, CS_AC_WRITE }, { X86_POPGS16, X86_REG_GS, CS_AC_WRITE }, { X86_POPSS16, X86_REG_SS, CS_AC_WRITE }, #ifndef CAPSTONE_X86_REDUCE { X86_SKINIT, X86_REG_EAX, CS_AC_WRITE }, { X86_VMRUN32, X86_REG_EAX, CS_AC_WRITE }, { X86_VMRUN64, X86_REG_RAX, CS_AC_WRITE }, { X86_VMLOAD32, X86_REG_EAX, CS_AC_WRITE }, { X86_VMLOAD64, X86_REG_RAX, CS_AC_WRITE }, { X86_VMSAVE32, X86_REG_EAX, CS_AC_READ }, { X86_VMSAVE64, X86_REG_RAX, CS_AC_READ }, { X86_FNSTSW16r, X86_REG_AX, CS_AC_WRITE }, { X86_CMOVB_F, X86_REG_ST0, CS_AC_WRITE }, { X86_CMOVBE_F, X86_REG_ST0, CS_AC_WRITE }, { X86_CMOVE_F, X86_REG_ST0, CS_AC_WRITE }, { X86_CMOVP_F, X86_REG_ST0, CS_AC_WRITE }, { X86_CMOVNB_F, X86_REG_ST0, CS_AC_WRITE }, { X86_CMOVNBE_F, X86_REG_ST0, CS_AC_WRITE }, { X86_CMOVNE_F, X86_REG_ST0, CS_AC_WRITE }, { X86_CMOVNP_F, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FXCHST0r, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FXCHST0r_alt, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FCOMST0r, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FCOMPST0r, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FCOMPST0r_alt, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FPST0r, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FPST0r_alt, X86_REG_ST0, CS_AC_WRITE }, { X86_ST_FPNCEST0r, X86_REG_ST0, CS_AC_WRITE }, #endif }; static struct insn_reg2 insn_regs_intel2[] = { { X86_IN8rr, X86_REG_AL, X86_REG_DX, CS_AC_WRITE, CS_AC_READ }, { X86_IN16rr, X86_REG_AX, X86_REG_DX, CS_AC_WRITE, CS_AC_READ }, { X86_IN32rr, X86_REG_EAX, X86_REG_DX, CS_AC_WRITE, CS_AC_READ }, { X86_OUT8rr, X86_REG_DX, X86_REG_AL, CS_AC_READ, CS_AC_READ }, { X86_OUT16rr, X86_REG_DX, X86_REG_AX, CS_AC_READ, CS_AC_READ }, { X86_OUT32rr, X86_REG_DX, X86_REG_EAX, CS_AC_READ, CS_AC_READ }, { X86_INVLPGA32, X86_REG_EAX, X86_REG_ECX, CS_AC_READ, CS_AC_READ }, { X86_INVLPGA64, X86_REG_RAX, X86_REG_ECX, CS_AC_READ, CS_AC_READ }, }; static struct insn_reg insn_regs_intel_sorted [ARR_SIZE(insn_regs_intel)]; // Explicitly specified calling convention with CAPSTONE_API so that it is always // compiled as __cdecl on MSVC and does not cause a compile error even when // default calling convention is __stdcall (eg. capstone_static_winkernel project) static int CAPSTONE_API regs_cmp(const void *a, const void *b) { uint16_t l = ((struct insn_reg *)a)->insn; uint16_t r = ((struct insn_reg *)b)->insn; return (l - r); } // return register of given instruction id // return 0 if not found // this is to handle instructions embedding accumulate registers into AsmStrs[] x86_reg X86_insn_reg_intel(unsigned int id, enum cs_ac_type *access) { static bool intel_regs_sorted = false; unsigned int first = 0; unsigned int last = ARR_SIZE(insn_regs_intel) - 1; unsigned int mid; if (!intel_regs_sorted) { memcpy(insn_regs_intel_sorted, insn_regs_intel, sizeof(insn_regs_intel_sorted)); qsort(insn_regs_intel_sorted, ARR_SIZE(insn_regs_intel_sorted), sizeof(struct insn_reg), regs_cmp); intel_regs_sorted = true; } if (insn_regs_intel_sorted[0].insn > id || insn_regs_intel_sorted[last].insn < id) { return 0; } while (first <= last) { mid = (first + last) / 2; if (insn_regs_intel_sorted[mid].insn < id) { first = mid + 1; } else if (insn_regs_intel_sorted[mid].insn == id) { if (access) { *access = insn_regs_intel_sorted[mid].access; } return insn_regs_intel_sorted[mid].reg; } else { if (mid == 0) break; last = mid - 1; } } // not found return 0; } bool X86_insn_reg_intel2(unsigned int id, x86_reg *reg1, enum cs_ac_type *access1, x86_reg *reg2, enum cs_ac_type *access2) { unsigned int i; for (i = 0; i < ARR_SIZE(insn_regs_intel2); i++) { if (insn_regs_intel2[i].insn == id) { *reg1 = insn_regs_intel2[i].reg1; *reg2 = insn_regs_intel2[i].reg2; if (access1) *access1 = insn_regs_intel2[i].access1; if (access2) *access2 = insn_regs_intel2[i].access2; return true; } } // not found return false; } // ATT just reuses Intel data, but with the order of registers reversed bool X86_insn_reg_att2(unsigned int id, x86_reg *reg1, enum cs_ac_type *access1, x86_reg *reg2, enum cs_ac_type *access2) { unsigned int i; for (i = 0; i < ARR_SIZE(insn_regs_intel2); i++) { if (insn_regs_intel2[i].insn == id) { // reverse order of Intel syntax registers *reg1 = insn_regs_intel2[i].reg2; *reg2 = insn_regs_intel2[i].reg1; if (access1) *access1 = insn_regs_intel2[i].access2; if (access2) *access2 = insn_regs_intel2[i].access1; return true; } } // not found return false; } x86_reg X86_insn_reg_att(unsigned int id, enum cs_ac_type *access) { unsigned int i; for (i = 0; i < ARR_SIZE(insn_regs_att); i++) { if (insn_regs_att[i].insn == id) { if (access) *access = insn_regs_att[i].access; return insn_regs_att[i].reg; } } // not found return 0; } // given MCInst's id, find out if this insn is valid for REPNE prefix static bool valid_repne(cs_struct *h, unsigned int opcode) { unsigned int id; int i = insn_find(insns, ARR_SIZE(insns), opcode, &h->insn_cache); if (i != 0) { id = insns[i].mapid; switch(id) { default: return false; case X86_INS_CMPSB: case X86_INS_CMPSW: case X86_INS_CMPSQ: case X86_INS_SCASB: case X86_INS_SCASW: case X86_INS_SCASQ: case X86_INS_MOVSB: case X86_INS_MOVSW: case X86_INS_MOVSQ: case X86_INS_LODSB: case X86_INS_LODSW: case X86_INS_LODSD: case X86_INS_LODSQ: case X86_INS_STOSB: case X86_INS_STOSW: case X86_INS_STOSD: case X86_INS_STOSQ: case X86_INS_INSB: case X86_INS_INSW: case X86_INS_INSD: case X86_INS_OUTSB: case X86_INS_OUTSW: case X86_INS_OUTSD: return true; case X86_INS_MOVSD: if (opcode == X86_MOVSW) // REP MOVSB return true; return false; case X86_INS_CMPSD: if (opcode == X86_CMPSL) // REP CMPSD return true; return false; case X86_INS_SCASD: if (opcode == X86_SCASL) // REP SCASD return true; return false; } } // not found return false; } // given MCInst's id, find out if this insn is valid for BND prefix // BND prefix is valid for CALL/JMP/RET #ifndef CAPSTONE_DIET static bool valid_bnd(cs_struct *h, unsigned int opcode) { unsigned int id; int i = insn_find(insns, ARR_SIZE(insns), opcode, &h->insn_cache); if (i != 0) { id = insns[i].mapid; switch(id) { default: return false; case X86_INS_JAE: case X86_INS_JA: case X86_INS_JBE: case X86_INS_JB: case X86_INS_JCXZ: case X86_INS_JECXZ: case X86_INS_JE: case X86_INS_JGE: case X86_INS_JG: case X86_INS_JLE: case X86_INS_JL: case X86_INS_JMP: case X86_INS_JNE: case X86_INS_JNO: case X86_INS_JNP: case X86_INS_JNS: case X86_INS_JO: case X86_INS_JP: case X86_INS_JRCXZ: case X86_INS_JS: case X86_INS_CALL: case X86_INS_RET: case X86_INS_RETF: case X86_INS_RETFQ: return true; } } // not found return false; } #endif // given MCInst's id, find out if this insn is valid for REP prefix static bool valid_rep(cs_struct *h, unsigned int opcode) { unsigned int id; int i = insn_find(insns, ARR_SIZE(insns), opcode, &h->insn_cache); if (i != 0) { id = insns[i].mapid; switch(id) { default: return false; case X86_INS_MOVSB: case X86_INS_MOVSW: case X86_INS_MOVSQ: case X86_INS_LODSB: case X86_INS_LODSW: case X86_INS_LODSQ: case X86_INS_STOSB: case X86_INS_STOSW: case X86_INS_STOSQ: case X86_INS_INSB: case X86_INS_INSW: case X86_INS_INSD: case X86_INS_OUTSB: case X86_INS_OUTSW: case X86_INS_OUTSD: return true; // following are some confused instructions, which have the same // mnemonics in 128bit media instructions. Intel is horribly crazy! case X86_INS_MOVSD: if (opcode == X86_MOVSL) // REP MOVSD return true; return false; case X86_INS_LODSD: if (opcode == X86_LODSL) // REP LODSD return true; return false; case X86_INS_STOSD: if (opcode == X86_STOSL) // REP STOSD return true; return false; } } // not found return false; } // given MCInst's id, find out if this insn is valid for REPE prefix static bool valid_repe(cs_struct *h, unsigned int opcode) { unsigned int id; int i = insn_find(insns, ARR_SIZE(insns), opcode, &h->insn_cache); if (i != 0) { id = insns[i].mapid; switch(id) { default: return false; case X86_INS_CMPSB: case X86_INS_CMPSW: case X86_INS_CMPSQ: case X86_INS_SCASB: case X86_INS_SCASW: case X86_INS_SCASQ: return true; // following are some confused instructions, which have the same // mnemonics in 128bit media instructions. Intel is horribly crazy! case X86_INS_CMPSD: if (opcode == X86_CMPSL) // REP CMPSD return true; return false; case X86_INS_SCASD: if (opcode == X86_SCASL) // REP SCASD return true; return false; } } // not found return false; } #ifndef CAPSTONE_DIET // add *CX register to regs_read[] & regs_write[] static void add_cx(MCInst *MI) { if (MI->csh->detail) { x86_reg cx; if (MI->csh->mode & CS_MODE_16) cx = X86_REG_CX; else if (MI->csh->mode & CS_MODE_32) cx = X86_REG_ECX; else // 64-bit cx = X86_REG_RCX; MI->flat_insn->detail->regs_read[MI->flat_insn->detail->regs_read_count] = cx; MI->flat_insn->detail->regs_read_count++; MI->flat_insn->detail->regs_write[MI->flat_insn->detail->regs_write_count] = cx; MI->flat_insn->detail->regs_write_count++; } } #endif // return true if we patch the mnemonic bool X86_lockrep(MCInst *MI, SStream *O) { unsigned int opcode; bool res = false; switch(MI->x86_prefix[0]) { default: break; case 0xf0: #ifndef CAPSTONE_DIET SStream_concat(O, "lock|"); #endif break; case 0xf2: // repne opcode = MCInst_getOpcode(MI); #ifndef CAPSTONE_DIET // only care about memonic in standard (non-diet) mode if (valid_repne(MI->csh, opcode)) { SStream_concat(O, "repne|"); add_cx(MI); } else if (valid_bnd(MI->csh, opcode)) { SStream_concat(O, "bnd|"); } else { // invalid prefix MI->x86_prefix[0] = 0; // handle special cases #ifndef CAPSTONE_X86_REDUCE if (opcode == X86_MULPDrr) { MCInst_setOpcode(MI, X86_MULSDrr); SStream_concat(O, "mulsd\t"); res = true; } #endif } #else // diet mode -> only patch opcode in special cases if (!valid_repne(MI->csh, opcode)) { MI->x86_prefix[0] = 0; } #ifndef CAPSTONE_X86_REDUCE // handle special cases if (opcode == X86_MULPDrr) { MCInst_setOpcode(MI, X86_MULSDrr); } #endif #endif break; case 0xf3: opcode = MCInst_getOpcode(MI); #ifndef CAPSTONE_DIET // only care about memonic in standard (non-diet) mode if (valid_rep(MI->csh, opcode)) { SStream_concat(O, "rep|"); add_cx(MI); } else if (valid_repe(MI->csh, opcode)) { SStream_concat(O, "repe|"); add_cx(MI); } else { // invalid prefix MI->x86_prefix[0] = 0; // handle special cases #ifndef CAPSTONE_X86_REDUCE if (opcode == X86_MULPDrr) { MCInst_setOpcode(MI, X86_MULSSrr); SStream_concat(O, "mulss\t"); res = true; } #endif } #else // diet mode -> only patch opcode in special cases if (!valid_rep(MI->csh, opcode) && !valid_repe(MI->csh, opcode)) { MI->x86_prefix[0] = 0; } #ifndef CAPSTONE_X86_REDUCE // handle special cases if (opcode == X86_MULPDrr) { MCInst_setOpcode(MI, X86_MULSSrr); } #endif #endif break; } // copy normalized prefix[] back to x86.prefix[] if (MI->csh->detail) memcpy(MI->flat_insn->detail->x86.prefix, MI->x86_prefix, ARR_SIZE(MI->x86_prefix)); return res; } void op_addReg(MCInst *MI, int reg) { if (MI->csh->detail) { MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count].type = X86_OP_REG; MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count].reg = reg; MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count].size = MI->csh->regsize_map[reg]; MI->flat_insn->detail->x86.op_count++; } if (MI->op1_size == 0) MI->op1_size = MI->csh->regsize_map[reg]; } void op_addImm(MCInst *MI, int v) { if (MI->csh->detail) { MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count].type = X86_OP_IMM; MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count].imm = v; // if op_count > 0, then this operand's size is taken from the destination op if (MI->csh->syntax != CS_OPT_SYNTAX_ATT) { if (MI->flat_insn->detail->x86.op_count > 0) MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count].size = MI->flat_insn->detail->x86.operands[0].size; else MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count].size = MI->imm_size; } else MI->has_imm = true; MI->flat_insn->detail->x86.op_count++; } if (MI->op1_size == 0) MI->op1_size = MI->imm_size; } void op_addXopCC(MCInst *MI, int v) { if (MI->csh->detail) { MI->flat_insn->detail->x86.xop_cc = v; } } void op_addSseCC(MCInst *MI, int v) { if (MI->csh->detail) { MI->flat_insn->detail->x86.sse_cc = v; } } void op_addAvxCC(MCInst *MI, int v) { if (MI->csh->detail) { MI->flat_insn->detail->x86.avx_cc = v; } } void op_addAvxRoundingMode(MCInst *MI, int v) { if (MI->csh->detail) { MI->flat_insn->detail->x86.avx_rm = v; } } // below functions supply details to X86GenAsmWriter*.inc void op_addAvxZeroOpmask(MCInst *MI) { if (MI->csh->detail) { // link with the previous operand MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count - 1].avx_zero_opmask = true; } } void op_addAvxSae(MCInst *MI) { if (MI->csh->detail) { MI->flat_insn->detail->x86.avx_sae = true; } } void op_addAvxBroadcast(MCInst *MI, x86_avx_bcast v) { if (MI->csh->detail) { // link with the previous operand MI->flat_insn->detail->x86.operands[MI->flat_insn->detail->x86.op_count - 1].avx_bcast = v; } } #ifndef CAPSTONE_DIET // map instruction to its characteristics typedef struct insn_op { uint64_t flags; // how this instruction update EFLAGS(arithmetic instrcutions) of FPU FLAGS(for FPU instructions) uint8_t access[6]; } insn_op; static insn_op insn_ops[] = { { /* NULL item */ 0, { 0 } }, #ifdef CAPSTONE_X86_REDUCE #include "X86MappingInsnOp_reduce.inc" #else #include "X86MappingInsnOp.inc" #endif }; // given internal insn id, return operand access info uint8_t *X86_get_op_access(cs_struct *h, unsigned int id, uint64_t *eflags) { int i = insn_find(insns, ARR_SIZE(insns), id, &h->insn_cache); if (i != 0) { *eflags = insn_ops[i].flags; return insn_ops[i].access; } return NULL; } void X86_reg_access(const cs_insn *insn, cs_regs regs_read, uint8_t *regs_read_count, cs_regs regs_write, uint8_t *regs_write_count) { uint8_t i; uint8_t read_count, write_count; cs_x86 *x86 = &(insn->detail->x86); read_count = insn->detail->regs_read_count; write_count = insn->detail->regs_write_count; // implicit registers memcpy(regs_read, insn->detail->regs_read, read_count * sizeof(insn->detail->regs_read[0])); memcpy(regs_write, insn->detail->regs_write, write_count * sizeof(insn->detail->regs_write[0])); // explicit registers for (i = 0; i < x86->op_count; i++) { cs_x86_op *op = &(x86->operands[i]); switch((int)op->type) { case X86_OP_REG: if ((op->access & CS_AC_READ) && !arr_exist(regs_read, read_count, op->reg)) { regs_read[read_count] = op->reg; read_count++; } if ((op->access & CS_AC_WRITE) && !arr_exist(regs_write, write_count, op->reg)) { regs_write[write_count] = op->reg; write_count++; } break; case X86_OP_MEM: // registers appeared in memory references always being read if ((op->mem.segment != X86_REG_INVALID)) { regs_read[read_count] = op->mem.segment; read_count++; } if ((op->mem.base != X86_REG_INVALID) && !arr_exist(regs_read, read_count, op->mem.base)) { regs_read[read_count] = op->mem.base; read_count++; } if ((op->mem.index != X86_REG_INVALID) && !arr_exist(regs_read, read_count, op->mem.index)) { regs_read[read_count] = op->mem.index; read_count++; } default: break; } } *regs_read_count = read_count; *regs_write_count = write_count; } #endif // map immediate size to instruction id static struct size_id { uint8_t enc_size; uint8_t size; uint16_t id; } x86_imm_size[] = { #include "X86ImmSize.inc" }; // given the instruction name, return the size of its immediate operand (or 0) uint8_t X86_immediate_size(unsigned int id, uint8_t *enc_size) { #if 0 // linear searching unsigned int i; for (i = 0; i < ARR_SIZE(x86_imm_size); i++) { if (id == x86_imm_size[i].id) { return x86_imm_size[i].size; } } #endif // binary searching since the IDs are sorted in order unsigned int left, right, m; left = 0; right = ARR_SIZE(x86_imm_size) - 1; while(left <= right) { m = (left + right) / 2; if (id == x86_imm_size[m].id) { if (enc_size != NULL) *enc_size = x86_imm_size[m].enc_size; return x86_imm_size[m].size; } if (id < x86_imm_size[m].id) right = m - 1; else left = m + 1; } // not found return 0; } #endif